2025年：

[1] Tuo Xu, Suhui Meng, Wenchen Zhuang, Zheng Ma, Li Jiang, Yiping Lu*, Zhiqiang Cao*. In-situ synthesis Xp/Al0.25CoCrFeNi (X=Al2O3, TiB2, ZrB2) high entropy matrix composites. Journal of Alloys and Compounds, 2025,1010.

[2] Rui Huang, Abdukadir Amar, Wenna Jiao, Shudao Wang, Yiping Lu*. Developing thermally stable high-entropy alloys using a phase-diagram method.Materials Characterization,2025,219,114641.

[3] Abdukadir Amar, Mingliang Wang, Rui Huang, Lingkun Zhang, Yiping Lu*. Ultra-strong and ductile medium entropy alloy with a dual heterogeneous microstructure.Acta Materialia,2025,284,120645.

2024年：

[1] Hui Liang, Jinxin Hou*, Jianhong Liu, Hongtai Xu, Yaning Li, Li Jiang, Zhiqiang Cao*. The Microstructures and Wear Resistance of CoCrFeNi2Mox High-Entropy Alloy Coatings. Coatings, 2024,14(6): 760.

[2] Hui Liang, Jinxin Hou, Li Jiang, Zhiqiang Cao*. Microstructure and Dry-Sliding Wear Resistance of CoCrFeNiMoTix High Entropy Alloy Coatings Produced by Laser Cladding. Coatings, 2024,14(2): 221.

[3] Hui Liang, Jinxin Hou, Xiaocong Li, Li. Jiang, Zhiqiang Cao*. Micro-structures and dry sliding wear properties of novel AlCrFeNiMo0.5-x (WC) high entropy alloy-ceramic composite coatings. Intermetallics, 2024,170: 108328.

[4] H. Liang, Jinxin Hou, Li Jiang, Zhaoxin Qi, Min Zhang, Zhiqiang Cao*. The Effect of Heat Treatment on the Microstructure and Mechanical Properties of Al0.6CoFeNi2V0.5 High Entropy Alloy. Coatings, 2024, 14(6): 658.Chao Liu,Yancheng Li,Jinlin Li,Zhenhua Wang,Qing Wang*,Chuang Dong,Peter K. Liaw.A novel low-density and high-strength Fe-Ni-base high-entropy superalloy with stable γ/γ' coherent microstructure at 1023 K. Scripta Materialia,2024,252116236-116236.

[5] Huiqian Min, Zhenhua Wang, Jianlong Wu,Hang Sun,Qing Wang*,Zhiyong Qiu*. In situ annealing optimization by anomalous Hall effect for a high-entropy alloy. Applied Physics Letters, 2024,124 (13) :132403.

[6] Zhenhua Wang,Junhao Yuan,Qing Wang*,Zhen Li,Xuyang Zhou,Junhua Luan, ing Wang,Shijian Zheng,Zengbao Jiao*,Chuang Dong,Peter K. Liaw. Developing novel high-temperature soft-magnetic B2-based multi-principal-element alloys with coherent body-centered-cubic nanoprecipitates. Acta Materialia, 2024, 266, 119686.

[7] Xuanhong Cai, Zhenhua Wang*, Ben Niu,Jinfeng Li,Qing Wang*. Microstructural Evolutions and Mechanical Properties of Energetic Al1 (TiZrNbTaMoCr)15 High-Entropy Alloys. Acta Metallurgica Sinica, 2024, 37(4): 620-632.

[8] Xicong Ye*, Zhongheng Diao, Huijun Kang***, Zhe Li**, Junhong Li, Zixu Qu, Liang Wang, Guangwei Zhao, Bo Li. A New Strategy for the Design of Triple-Phase Eutectic High-Entropy Alloys Based on Infinite Solid Solution and Pseudo-Ternary Method. Nano Letters, 2024, 24(20): 6117-23.

[9] Amar Abdukadir, Lingkun Zhang, Rui Huang, Tianxin Li, Mingliang Wang, Yiping Lu*. Effects of annealing treatment on microstructure and mechanical properties of laser melting-deposited VCoNi medium-entropy alloy.Intermetallics,2024,165,108157.

[10] Huanzhi Zhang, Tianxin Li, Qianqian Wang, Zhenbo Zhu, Hefei Huang, Yiping Lu *. Effects of Nitrogen Doping on Microstructures and Irradiation Resistance of Ti–Zr–Nb–V–Mo Refractory High-Entropy Alloy.Acta Metallurgica Sinica (English Letters),2024,37(6):1007-1018.

[11] Wen Yu Li, Ming Liang Wang, Xiao Di Wang, Tong Min Wang, Ting Ju Li, Yi Ping Lu*. A novel Co-free high-entropy alloy with excellent antimicrobial and mechanical properties.Rare Metals,2024,44(1):1-10.

[12] Qingxiang Li, Mingliang Wang, Xiaodi Wang, Yiping Lu*, Tongmin Wang. Partially recrystallized heterostructure via Mo-doping endows CoCrNi medium-entropy alloy with exceptional strength and ductility.Scripta Materialia,2024,253,116297-116297.

[13] Jiapeng Xu, Mingliang Wang, Lingkun Zhang, Xiaodi Wang, Yiping Lu*. Enhanced strength and ductility in a brittle hypoeutectic high-entropy alloy via spheroidizing annealing. Materials Letters,2024,371,136935-136935.

[14] Zilong Zhou, Mingliang Wang, Wenyu Li, Shang Zhao, Yiping Lu*. A novel Cu-containing TiZrNb-based medium entropy alloy with excellent mechanical properties, antibacterial activity and biocompatibility.Intermetallics,2024,171,108347-.

[15] Lingkun Zhang, Rui Huang, Fengrui Zhou, Abdukadir Amar, Hongwei Yan, Yongan Zhang, Yiping Lu*. Remarkable improved strength and ductility in brittle eutectic high-entropy alloy via a novel spheroidization and recrystallization strategy. Journal of Materials Science & Technology,2024,187,177-187.

[16] Enze Zhou, Yi Yang, Jianlin Li, Guangyu Ren, Lingke Li, Zhong Li, Yiping Lu*, Tingyue Gu, Fuhui Wang, Dake Xu.A Novel Cu and Ag Bearing High-Entropy Alloy With Remarkable Antibacterial, Antiviral and Anti-Microbial Corrosion Performances. Advanced Functional Materials,2024, 2419467.

[17] Dingfeng Xu, Xiaodi Wang, YipingLu*. Heterogeneous‐Structured Refractory High‐Entropy Alloys: A Review of State‐of‐the‐Art Developments and Trends. Advanced Functional Materials, 2024, 34(49): 2408941.

[18] Xinyue Yang, Lijun Wu, Cheng Li, Shujun Li, Wentao Hou, Yulin Hao, Yiping Lu*, Lei Li.Synergistic Amelioration of Osseointegration and Osteoimmunomodulation with a Microarc Oxidation-Treated Three-Dimensionally Printed Ti-24Nb-4Zr-8Sn Scaffold via Surface Activity and Low Elastic Modulus..ACS applied materials & interfaces,2024,16(3):

[19] Wei Qin, Mingliang Wang, Shang Zhao, Yiping Lu*. A novel high-entropy alloy with excellent mechanical properties, corrosion resistance, and antibacterial properties. Intermetallics,2024,173,108426-108426.

[20] Rui Huang, Lingkun Zhang, Abdukadir Amar, Peter K. Liaw,Tongmin Wang,Tingju Li, Yiping Lu*.Achieving excellent uniform tensile ductility and strength in dislocation-cell-structured high-entropy alloys.International Journal of Plasticity,2024,181,104079-104079.

[21] Yongmiao Liu, Mingliang Wang, Tongmin Wang, Tingju Li, Yiping Lu*. Substitutional and interstitial atoms co-doping overcomes thestrength-ductility trade-off in lightweight refractory medium-entropy alloys. Materials Characterization,2024, 210,113844-.

2023年：

[1] Hui Liang, Jinxin Hou, Zhiqiang Cao*, Li Jiang. Interesting 'island-like' microstructure and tribological evaluation of Al1.5CrFeNiWTi0.5 high entropy alloy coating manufactured by laser cladding. Tribology International, 2023, 179: 108171.

[2] Hui Liang, Jianhong Liu, Likun Sun, Jinxin Hou, Zhiqiang Cao. Optimization of the Forming Quality of a Laser-Cladded AlCrFeNiW0.2 High-Entropy Alloy Coating. Coatings, 2023,13(10): 1714.

[3] Zijun Fan, Ben Niu*, Qing Wang*, Jianjun Sha, Chuang Dong*. Effects of Si variation and Zr addition on the microstructure, oxidation resistance and mechanical property at 1523 K of Nb-Si-Ti/Zr/Hf-Cr/Al high-entropy superalloys. Journal of Alloys and Compounds, 2023, 945.

[4] Dongming Jin, Zhenhua Wang, Junhao Yuan, Beibei Jiang, Fengyun Yu, Jinfeng Li, Qing Wang*. High-strength and energetic Al2Ti6Zr2Nb3Ta3 high entropy alloy containing a cuboidal BCC/B2 coherent microstructure. Journal of Alloys and Compounds, 2023, 931.

[5] Yubo Zhang*, Chenghao Ding, Jiajing Liu, Yiping Lu, Tingju Li. Interfacial microstructure evolution and mechanical properties of AlCoCrFeNi2.1 alloy by multilayer additive hot compression bonding. Intermetallics, 2023, 156: 107867.

[6] Tianxin Li, Shudao Wang, Wenxue Fan, Yiping Lu*, Tongmin Wang, Tingju Li, Peter K Liaw. CALPHAD-aided design for superior thermal stability and mechanical behavior in a TiZrHfNb refractory high-entropy alloy. Acta Materialia, 2023, 246: 118728.

[7] Lingkun Zhang, Rui Huang, Abdukadir Amar, Xiaohu Chen, Zheng Ren, Tao He, Yiping Lu*. Evolution of Microstructure and Mechanical Properties of a Novel CoCrFeNi2(TiSi)0.7 Eutectic High‐Entropy Alloys under Different Annealing Conditions. Advanced Engineering Materials, 2023, 25(13): 2201659.

[8]苗军伟,王明亮,张爱军,卢一平*,王同敏,李廷举.AlCr1.3TiNi2共晶高熵合金的高温摩擦学性能及磨损机理.金属学报,2023,59(02):267-276.

[9] Junwei Miao, Tianxin Li, Qiang Li, Xiaohu Chen, Zheng Ren, Yiping Lu*. Enhanced Surface Properties of the Al0.65CoCrFeNi High-Entropy Alloy via Laser Remelting. Materials, 2023, 16(3): 1085.

[10] Haitao Zhang, Chenglin Wang, Junwei Miao, Shuyan Shi, Tingju Li, Hongwei Yan, Yiping Lu*. Effect of microstructure evolution on wear resistance of equal molar CoCrFeNi high-entropy alloy. Rare Metals, 2023, 42(11):3797-3805.

[11] Haitao Zhang, Junwei Miao, Chenglin Wang, Tingju Li, Longjiang Zou, Yiping Lu*. Significant Improvement in Wear Resistance of CoCrFeNi High-Entropy Alloy via Boron Doping. Lubricants, 2023, 11(9):386.

[12] Lingkun Zhang, Abdukadir Amar, Mengyuan Zhang, Jinze Liu, Hongwei Yan, Yongan Zhang, Yiping Lu*. Enhanced strength-ductility synergy in a brittle CoCrNi2(V3B2Si)0.2 eutectic high-entropy alloy by spheroidized M3B2 and recrystallized FCC. Science China Materials, 2023, 66(11): 4197-4206.

[13] Ao Meng, Xiang Chen, Yazhou Guo, Yiping Lu*, Yonghao Zhao. Dislocation mediated dynamic tension-compression asymmetry of a Ni2CoFeV0.5Mo0.2 medium entropy alloy. Journal of Materials Science & Technology, 2023, 159, 204-218.

[14] Chengbin Wei, Yiping Lu*, Tongmin Wang, Peter K Liaw. Microstructures and mechanical behavior of non-equiatomic Co29Cr29Fe29Ni13-xVx high-entropy alloys at room and cryogenic temperatures. Materials Science & Engineering A, 2023, 865, 144611.

[15] Jiacheng Duan, Mingliang Wang, Rui Huang, Junwei Miao, Yiping Lu*, Tongmin Wang, Tingju Li. A novel high-entropy alloy with an exceptional combination of soft magnetic properties and corrosion resistance. Science China Materials, 2022, 66(2): 772-779.

[16] Huanzhi Zhang, Qianqian Wang, Chunhui Li, Zhenbo Zhu, Hefei Huang, Yiping Lu*. He-ion Irradiation Effects on the Microstructures and Mechanical Properties of the Ti-Zr-Hf-V-Ta Low-Activation High-Entropy Alloys. Materials, 2023, 16(16).

[17] Abdukadir Amar, Mingliang Wang, Lingkun Zhang, Jinfeng Li, Liufei Huang, Hongwei Yan, Yiping Lu*. Additive manufacturing of VCoNi medium-entropy alloy: Microstructure evolution and mechanical properties. Additive Manufacturing, 2023, 68, 103522.

[18] LingKun Zhang, MingLiang Wang, Rui Huang, XiaoHu Chen, Zheng Ren, Tao He, YiPing Lu*. Thermal modification of brittle CoFeNi2（Ti3Si5）0.16 eutectic high-entropy alloy by annealing treatment. Science China(Technological Sciences), 2023, 66(04): 966-975.

[19] Guojia Zhang, Mingliang Wang, Yiping Lu*, Tongmin Wang, Tingju Li. Microstructural stability and mechanical properties of BCC-based Fe 3.5 Cr 1.5NiAl0.8 multicomponent alloy. Transactions of Nonferrous Metals Society of China, 2023, 33(08): 2461-2470.

[20] Huanzhi Zhang, Zhenbo Zhu, Hefei Huang, Tao He, Hongwei Yan, Yongan Zhang, Yiping Lu*, Tongmin Wang, Tinigju Li. Microstructures, mechanical properties, and irradiation tolerance of the Ti–Zr–Nb–V–Mo refractory high-entropy alloys. Intermetallics, 2023, 157, 107873.

[21] Yan Di, Mingliang Wang, Lingkun Zhang, Hongwei Yan, Yongan Zhang, Yiping Lu *. A novel Ti45V45(AlCrMo)10 lightweight medium-entropy alloy with outstanding mechanical properties. Materials Letters, 2023, 339, 134089.

[22]李天昕,王书道,卢一平*,曹志强,王同敏,李廷举.高熵合金材料研究进展与展望.中国工程科学,2023,25(03):170-181.

[23] Wenna Jiao, Junwei Miao, Yiping Lu*, Xiaohu Chen, Zheng Ren, Guomao Yin, Tingju Li. Designing CoCrFeNi-M (M = Nb, Ta, Zr, and Hf) eutectic high-entropy alloys via a modified simple mixture method. Journal of Alloys and Compounds, 2023, 941, 168975.

[24] Dingfeng Xu, Xiaodi Wang, Fengshan Yu, Mingliang Wang, Yiping Lu*. Ta-doping induces heterogeneous microstructures in CoCrNi medium-entropy alloy to achieve excellent strength-ductility combination. Materials Science & Engineering A, 2023, 885, 145600.

[25] Zhichao Zhu, Mingliang Wang, Tao He, Tianxin Li, Yan Di, Hongwei Yan, Yongan Zhang, Yiping Lu*. Ultrastrong High-Ductility Ni35Co35Fe10Al10Ti8B2 High-Entropy Alloy Strengthened with Super-High Concentration L12 Precipitates. Advanced Engineering Materials, 2023, 25(20).

[26]魏祥赛,许鼎锋,卢一平*,曹志强,王同敏,李廷举.新型NixTi24Zr12Nb10Ta12Mo5W5高熵合金含能结构材料的组织及力学性能.特种铸造及有色合金,2023,43(02):220-225.

[27] Wenna Jiao, Tianxin Li, Guomao Yin, Tao He, Tingju Li, Yiping Lu*. Hot deformation characteristics and microstructure evolution of Al20Co36Cr4Fe4Ni36 eutectic high entropy alloy. Materials Characterization, 2023, 204, 113180.

[28] Lijun Wu, Xinyue Yang, Tianxin Li, Lei Li, Yiping Lu*. Achieving superior mechanical properties and biocompatibility in an O-doping TiZrNb medium entropy alloy. Intermetallics, 2023, 161, 107991.

[29] Guojia Zhang, Hongwei Yan, Yongan Zhang, Tao He, Yiping Lu*. Strength–ductility balance optimization of Fe2NiCr0.5Cu0.2Al0.3Ti0.1 multicomponent alloy via doping trace amounts of boron. Journal of Materials Science, 2023, 58(16):7106-7118.

[30] Mingliang Wang, Yiping Lu*, Jinggang Lan, Tongmin Wang, Chuan Zhang, Zhiqiang Cao, Tingju Li, Peter K Liaw. Lightweight, ultrastrong and high thermal-stable eutectic high-entropy alloys for elevated-temperature applications. Acta Materialia, 2023, 248, 118806.

[31] Rui Huang, Wei Wang, Tianxin Li, Lingkun Zhang, Abdukadir Amar, Xiaohu Chen, Zheng Ren, Yiping Lu*. A novel AlMoNbHfTi refractory high-entropy alloy with superior ductility. Journal of Alloys and Compounds, 2023, 940, 168821.

2022年：

[1] Xiaocong Li, Hui Liang, Yanzhou Zhao, Li Gao, Li Jiang, and Zhiqiang Cao*, Microstructure and wear resistance of AlCrFeNiMo0.5Six high-entropy alloy coatings prepared by laser cladding. China Foundry, 2022, 19(6), 473-480.

[2] Zhiyao Ji, Qing Wang*, Zhenhua Wang, Yuping Duan*, Chuang Dong, Peter K Liaw. Electromagnetic wave-absorbing behavior of soft-magnetic medium entropy alloys with BCC/L21 coherent microstructure. Materials & Design, 2022, 222, 111054.

[3] DongMing Jin, ZhenHua Wang, JinFeng Li, Ben Niu, Qing Wang*. Formation of coherent BCC/B2 microstructure and mechanical properties of Al-Ti-Zr-Nb-Ta-Cr/Mo light-weight refractory high-entropy alloys. Rare Metals, 2022, 41(08): 2886-2893.

[4] Hongwei Yao, Dongxu Qiao, Junwei Miao, Jun Wang, Enyu Guo, Yiping Lu*. Criterion for the Laves-phase formation in refractory high-entropy alloys. Philosophical Magazine Letters, 2022, 102(5-6): 161-177.

[5] Xiaocong Li, Hui Liang, Yanzhou Zhao, Li Gao, Li Jiang, Zhiqiang Cao*. Microstructure and wear resistance of AlCrFeNiMo0.5Six high-entropy alloy coatings prepared by laser cladding. China Foundry, 2022, 19(6): 473-480.

[6] Tianxin Li, Junwei Miao, Yiping Lu*, Tongmin Wang, Tingju Li. Effect of Zr on the as-cast microstructure and mechanical properties of lightweight Ti2VNbMoZrx refractory high-entropy alloys. International Journal of Refractory Metals and Hard Materials, 2022, 103, 105762.

[7] Liufei Huang, Yaoning Sun, Na Chen, Hengwei Luan, Guomin Le, Xue Liu, Yaqi Ji, Yiping Lu*, Peter K. Liaw, Xiaoshan Yang, Yuzhao Zhou, Jinfeng Li. Simultaneously enhanced strength-ductility of AlCoCrFeNi2.1eutectic high-entropy alloy via additive manufacturing.Materials Science And Engineering A-structural Materials Properties. Microstructure And Processing, 2022, 142, 327-830.

[8] Yiping Lu*, Xiaoxiang Wu, Zhenghong Fu, Qiankun Yang, Yong Zhang, Qiming Liu, Tingju Li. Ductile and ultrahigh-strength eutectic high-entropy alloys by large-volume 3D printing. Journal of Materials Science & Technology, 2022, 126, 15-21.

[9] Guojia Zhang, Mingliang Wang, Yiping Lu*, Dehua Liu, Tongmin Wang, Tingju Li. A Novel Series of Fe8. 25CoCrNiMnNb0.1Mox Multi-Component Alloys with Excellent Combined Strength and Ductility. Journal of Materials Engineering and Performance, 2022, 31(7): 5374-5381.

[10] Wenna Jiao, Tianxin Li, Xiaoxue Chang, Yiping Lu*, Guomao Yin, Zhiqiang Cao, Tingju Li. A novel Co-free Al0.75CrFeNi eutectic high entropy alloy with superior mechanical properties. Journal of Alloys and Compounds, 2022, 902, 163814.

[11] Haitao Zhang, Chenglin Wang, Shuyan Shi, Tingju Li, Longjiang Zou, Yiping Lu*, Peter K Liaw. Tuning deformation mechanisms of face-centered-cubic high-entropy alloys via boron doping. Journal of Alloys and Compounds, 2022, 911, 165103.

[12] Hongwei Yao, Dongxu Qiao, Junwei Miao, Jun Wang, Enyu Guo, Yiping Lu*. Criteria for laves-phase formation in refractory high-entropy alloys. Philosophical Magazine Letters, 2022, 102(5-6): 161-177.

[13]焦文娜,卢一平*,曹志强,王同敏,李廷举,殷国茂.共晶高熵合金的研究进展及展望.特种铸造及有色合金,2022,42(03):265-274.

[14] EnZe Zhou, GuangYu Ren, YunLing Sun, YongQiang Fan, Yi Yang, MingYue Sun, DaKe Xu, YiPing Lu*, JianJun Wang, HuaBing Li, FuHui Wang. Antibacterial activities of a novel Cu-bearing high-entropy alloy against multi-drug-resistant Acinetobacter baumannii and Staphylococcus aureus. Rare Metals, 2022, 41(02): 570-579.

[15] Lingkun Zhang, Yiping Lu*, Abdukadir Amar, Xiaohu Chen, Zheng Ren, Tongmin Wang, Tingju Li. Eutectic high entropy alloys containing B and Si with excellent mechanical properties in annealing. Materials Science & Engineering A, 2022, 856, 143994.

[16] Lingkun Zhang, Yiping Lu*, Abdukadir Amar, Xiaohu Chen, Zheng Ren, Tongmin Wang, Tingju Li. Designing Eutectic High‐Entropy Alloys Containing Nonmetallic Elements. Advanced Engineering Materials, 2022, 24(11):

[17] Shiyu Wu, Dongxu Qiao, Haitao Zhang, Junwei Miao, Hongliang Zhao, Jun Wang, Yiping Lu*, Tongmin Wang, Tingju Li. Microstructure and mechanical properties of CxHf0.25NbTaW0.5 refractory high-entropy alloys at room and high temperatures. Journal of Materials Science & Technology, 2022, 97, 229-238.

[18] Guojia Zhang, Mingliang Wang, Yiping Lu*, Tongmin Wang, Tingju Li. Microstructural stability and mechanical properties of a BCC-based Fe3.5Cr1.5NiAl0.8 multicomponent alloy. Transactions of Nonferrous Metals Society of China, 2023, 33(08): 2461-2470.

[19] Dingfeng Xu, Haitao Zhang, Mingliang Wang, Yiping Lu*, Xiaohu Chen, Zheng Ren. Enhanced strength-ductility synergy in a Ta-doped CoCrNi medium-entropy alloy with a dual heterogeneous structure. Materials Science & Engineering A, 2022, 860, 144293.

[20] Tianxin Li, Yiping Lu*, Zhiqiang Li, Tongmin Wang, Tingju Li. Hot deformation behavior and microstructure evolution of non-equimolar Ti2ZrHfV0.5Ta0.2 refractory high-entropy alloy. Intermetallics, 2022, 146, 107586.

[21] Dingfeng Xu, Mingliang Wang, Tianxin Li, Xiangsai Wei, Yiping Lu*. A critical review of the mechanical properties of CoCrNi-based medium-entropy alloys. Microstructures, 2022, 2(1).

[22] Huanzhi Zhang, Chunhui Li, Zhenbo Zhu, Hefei Huang, Yiping Lu*, Tongmin Wang, Tinigju Li. Effects of He-ion irradiation on the microstructures and mechanical properties of the novel Co-free VxCrFeMnNiy high-entropy alloys. Journal of Nuclear Materials, 2022, 572, 154074.

[23] Guangyu Ren, Lili Huang, Kunling Hu, Tianxin Li, Yiping Lu*, Dongxu Qiao, Haitao Zhang, Dake Xu, Tongmin Wang, Tingju Li, Peter K. Liaw. Enhanced Antibacterial Behavior of a Novel Cu-bearing High-Entropy Alloy. Journal of Materials Science & Technology, 2022, 117: 158-166.

[24] Junwei Miao, Hongwei Yao, Jun Wang, Yiping Lu*, Tongmin Wang, Tingju Li. Surface modification for AlCoCrFeNi2.1 eutectic high-entropy alloy via laser remelting technology and subsequent aging heat treatment. Journal of Alloys and Compounds, 2022, 894, 162380.

[25] Shiyu Wu, Dongxu Qiao, Hongliang Zhao, Jun Wang, Yiping Lu*. A novel NbTaW0.5 (Mo2C)x refractory high-entropy alloy with excellent mechanical properties. Journal of Alloys and Compounds,2022,889, 161800.

2021年：

[1] Hui Liang, Dongxu Qiao, Junwei Miao, Zhiqiang Cao*, Hui Jiang, Tongmin Wang. Anomalous microstructure and tribological evaluation of AlCrFeNiW0.2Ti0.5 high-entropy alloy coating manufactured by laser cladding in seawater. Journal of Materials Science & Technology, 2021, 85: 224-234.

[2] Zhenhua Wang, Dongming Jin, Jincan Han, Qing Wang*, Zhongwei Zhang*, Chuang Dong*. Microstructures and Mechanical Properties of Al-Ti-Zr-Nb-Ta-Mo-V Refractory High-Entropy Alloys with Coherent B2 Nanoprecipitation. Crystals, 2021, 11(7): 833-833.

[3] Junhao Yuan, Yufeng Liu, Zhen Li*, Mingkang Wang, Qing Wang*, Chuang Dong. Cluster-Model-Embedded First-Principles Study on Structural Stability of Body-Centered-Cubic-Based Ti-Zr-Hf-Nb Refractory High-Entropy Alloys. Journal of Phase Equilibria and Diffusion, 2021, 42(5): 1-9.

[4] Mingkang Wang, Junhao Yuan, Fengyun Yu, Qing Wang*, Yufeng Liu, Zhongwei Zhang, Chuang Dong & Peter K. Liaw. Formation and Mechanical Behavior of Body-Centered-Cubic Zr(Hf)-Nb-Ti Medium-Entropy Alloys. Metall Mater Trans A, 2021, 52(04): 2100–2110.

[5] Yue Ma, Qing Wang*, Xuyang Zhou, Jiamiao Hao, Baptiste Gault, Qingyu Zhang, Chuang Dong, T. G. Nieh*. A Novel Soft-Magnetic B2-Based Multiprincipal-Element Alloy with a Uniform Distribution of Coherent Body-Centered-Cubic Nanoprecipitates. Advanced Materials, 2021, 33(14): 18-24.

[6] Qing Wang*, Jincan Han, Yufeng Liu, Zhongwei Zhang*, Chuang Dong, Peter K. Liaw. Coherent precipitation and stability of cuboidal nanoparticles in body-centered-cubic Al_0.4Nb_0.5Ta_0.5TiZr_0.8refractory high entropy alloy. Scripta Materialia, 2021, 190: 40-45.

[7] TianXin Li, JunWei Miao, Enyu Guo*, He Huang, Jun Wang, YiPing Lu*, TongMin Wang, ZhiQiang Cao, TingJu Li. Tungsten containing high entropy alloys: a focused review of manufacturing routes, phase selection, mechanical properties, and irradiation resistance properties. Tungsten, 2021, 3: 181-196.

[8]张国家,李忍,刘德华,卢一平*,王同敏, 李廷举. C对CoFe2NiV0.5Mo0.2高熵合金结构和力学性能的影响.材料导报,2021,35(17):17026-17030+16997.

[9]卢思颖, 苗军伟,卢一平*. 多主元高熵合金的强韧化.稀有金属,2021,45(05):530-540.

[10]卢一平*,卢晨阳,吴渊. “高熵合金”（2021年）专题序言.材料导报,2021,35(17):16996.

[11] Tianxin Li, Wenna Jiao, Junwei Miao, Yiping Lu*, Enyu Guo, Tongmin Wang, Tingju Li, Peter K Liaw*. A novel ZrNbMoTaW refractory high-entropy alloy with in-situ forming heterogeneous structure. Materials Science and Engineering: A, 2021, 827: 142061.

2020年：

[1] Yaning Li, Hui Liang, Qiuxin Nie, Zhaoxin Qi, Dewei Deng, Hui Jiang, Zhiqiang Cao*. Microstructures and Wear Resistance of CoCrFeNi2V0.5Tix High-Entropy Alloy Coatings Prepared by Laser Cladding. Crystals, 2020, 10(5): 352.

[2] Hui Liang, Junwei Miao, Bingyang Gao, Dewei Deng, Tongmin Wang, Yiping. Lu, Zhiqiang Cao*, Hui Jiang, Tingju Li, Huijun Kang. Microstructure and tribological properties of AlCrFe2Ni2W0.2Mo0.75 high-entropy alloy coating prepared by laser cladding in seawater, NaCl solution and deionized water. Surface & Coatings Technology, 2020, 400: 126214.

[3] Jinlin Li, Zhen Li*, Qing Wang*, Chuang Dong, Peter K. Liaw. Phase-field simulation of coherent BCC/B2 microstructures in high entropy alloys. Acta Materialia, 2020, 197: 10-19.

[4] Chenyu Wang, Xiaona Li*, Zhumin Li, Qing Wang*, Yuehong Zheng, Yue Ma, Linxia Bi, Yuanyuan Zhang, Xihui Yuan, Xin Zhang, Chuang Dong, Peter K. Liaw. The resistivity–temperature behavior of AlxCoCrFeNi high-entropy alloy films. Thin Solid Films, 2020, 700, 1378995.

[5] Tian dang Huang, Shi yu Wu, Hui Jiang, Yi ping Lu*, Tong-min Wang, Ting-ju Li. Effect of Ti content on microstructure and properties of Ti x ZrVNb refractory high-entropy alloys.International Journal of Minerals. Metallurgy and Materials, 2020, 27(10): 1318-1325.

[6] Yiping Lu*. Preface to the Special Issue: High-Entropy Alloys. Acta Metallurgica Sinica (English Letters), 2020, 33(8): 1031-1032.

[7]陶继闯, 卢一平*. Mo含量对Al0.1CoCrCu0.5FeNiMox高熵合金的组织结构、力学性能及耐蚀性能的影响.材料导报,2020,34(08):8096-8099.

[8] Ren Li, Jing Ren, GuoJia Zhang, JunYang He, YiPing Lu*,TongMin Wang, TingJu Li. Novel (CoFe 2 NiV 0.5 Mo 0.2 ) 100−x Nb x Eutectic High-Entropy Alloys with Excellent Combination of Mechanical and Corrosion Properties. Acta Metallurgica Sinica (English Letters), 2020, 33(08): 1046-1056.

[9]姚宏伟,卢一平*,曹志强,王同敏, 李廷举. FCC/L12共格高熵高温合金的研究进展.材料导报,2020,34(17):17041-17046.

2019年：

[1] Hui Liang, Hongwei Yao, Dongxu Qiao, Shuang Nie, Yiping Lu, Dewei Deng, Zhiqiang Cao*, Tongmin Wang. Microstructures and Wear Resistance of AlCrFeNi2W0.2Nbx High-Entropy Alloy Coatings Prepared by Laser Cladding. Journal of Thermal Spray Technology, 2019, 28(6): 1318-1329.

[2] Yue Ma, Jiamiao Hao, Jinchuan Jie, Qing Wang*, Chuang Dong. Coherent precipitation and strengthening in a dual-phase AlNi2Co2Fe1.5Cr1.5 high-entropy alloy. Materials Science and Engineering: A, 2019, 764, 138241.

[3] Yue Ma, Jiamiao Hao, Qing Wang*, Chuan Zhang, Chunling Li, Chuang Dong. Temperature-affected microstructural stability of coherent cuboidal B2 particles in precipitation-strengthened body-centered-cubic Al_0.7CoCr₂FeNi high-entropy alloy. Journal of Materials Science, 2019, 54(11): 8696-8710.

[4] Jiamiao Hao, Yue Ma, Qing Wang*, Chuan Zhang, Chunling Li, Chuang Dong, Qiang Song, Peter K. Liaw. Formation of cuboidal B2 nanoprecipitates and microstructural evolution in the body-centered-cubic Al_0.7NiCoFe_1.5Cr_1.5 high-entropy alloy. Journal of Alloys and Compounds, 2019, 780: 408-421.

[5]张长亮,卢一平*. 氮元素对Ti2ZrHfV0.5Mo0.2高熵合金组织及力学性能的影响.材料导报,2019,33(S1):329-331.

[6] Hui Liang, Hongwei Yao, Dongxu Qiao, huang Nie, Yiping Lu*, Dewei Deng, Zhiqiang Cao, Tongmin Wang. Microstructures and Wear Resistance of AlCrFeNi2W0.2Nbx High-Entropy Alloy Coatings Prepared by Laser Cladding. Journal of Thermal Spray Technology, 2019, 28(6): 1318-1329.

2018年：

[1] Yiping Lu, Zhongyi Tang, Bin Wen, Gang Wang, Shiwei Wu, Tongmin Wang^*, Yubo Zhang, Zongning Chen, Zhiqiang Cao, Tingju Li^*. A promising new class of plasticine: Metallic plasticine. Journal of Materials Science & Technology, 2018, 34(2): 344-348.

[2] Yue Ma, Qing Wang*, Beibei Jiang, Chunling Li, Jiamiao Hao, Xiaona Li, Chuang Dong, T.G. Nieh*. Controlled formation of coherent cuboidal nanoprecipitates in body-centered cubic high-entropy alloys based on Al₂(Ni,Co,Fe,Cr)₁₄compositions. Acta Materialia, 2018, 147: 213-225.

[3] Chunling Li, Yue Ma, Jiamiao Hao, Yu Yan, Qing Wang*, Chuang Dong, Peter K. Liaw. Microstructures and mechanical properties of body-centered-cubic (Al,Ti)_0.7(Ni,Co,Fe,Cr)₅ high entropy alloys with coherent B2/L2₁ nanoprecipitation. Materials Science & Engineering A, 2018, 737: 286-296.

[4] Chunling Li, Yue Ma, Jiamiao Hao, Qing Wang *, Shujie Pang, Chuang Dong, Peter K. Liaw. Effect of Ti substitution for Al on the cuboidal nanoprecipitates in Al_0.7NiCoFeCr₂ high-entropy alloys. Journal of Materials Research, 2018, 33(19): 3266-3275.

2017年：

[1] Yue Ma, Qing Wang*, Chunling Li, Louis J. Santodonato, Mikhail Feygenson, Chuang Dong, Peter K. Liaw. Chemical short-range orders and the induced structural transition in high-entropy alloys. Scripta Materialia, 2017, 144: 64-68.

[2] Yue Ma, Beibei Jiang, Chunling Li, Qing Wang*, Chuang Dong, Peter K. Liaw, Fen Xu, Lixian Sun. The BCC/B2 morphologies in Al_xNiCoFeCr high-entropy alloys. Metals, 2017, 7(2): 57.

[3] Yiping Lu, Xuzhou Gao, Li Jiang, Zongning Chen, Tongmin Wang*, Jinchuan Jie, Huijun Kang, Yubo Zhang, Sheng Guo, Haihui Ruan, Tingju Li*. Directly cast bulk eutectic and near-eutectic high entropy alloys with balanced strength and ductility in a wide temperature range. Acta materialia, 2017, 124: 143-150.

[4] Kaiyao Zhou, Zhongyi Tang, Yiping Lu*, Tongmin Wang, Haipeng Wang, Tingju Li. Composition, Microstructure, Phase Constitution and Fundamental Physicochemical Properties of Low-Melting-Point Multi-Component Eutectic Alloys. Journal of Materials Science & Technology, 2017, 33(02): 131-154.

[5] Yiping Lu*, Hui Jiang, Sheng Guo, Tongmin Wang, Zhiqiang Cao, Tingju Li. A new strategy to design eutectic high-entropy alloys using mixing enthalpy. Intermetallics, 2017, 91124-128.

[6] Qiushi Chen, Yong Dong, Junjia Zhang, Yiping Lu*. Microstructure and Properties of AlCoCrFeNiBx(x=0, 0.1, 0.25, 0.5, 0.75, 1.0) High Entropy Alloys. Rare Metal Materials and Engineering, 2017, 46(3): 651-656.

[7] Qing Wang*, Yue Ma, Beibei Jiang, Xiaona Li, Yao Shi, Chuang Dong. A cuboidal B2 nanoprecipitation-enhanced body-centered-cubic alloy Al_0.7CoCrFe₂Ni with prominent tensile properties. Scripta Materialia, 2017, 15(07): 85-89.

2016年：

[1] Li Jiang, Yiping Lu, Wei Wu, Zhiqiang Cao*, Tingju Li*. Microstructure and Mechanical Properties of a CoFeNi2V0.5Nb0.75 Eutectic High Entropy Alloy in As-cast and Heat-treated Conditions. Journal of Materials Science & Technology, 2016, 32(3): 245-250.

[2] Li Jiang, Wei Wu, Zhiqiang Cao*, Dewei Deng, Tingju Li. Microstructure Evolution and Wear Behavior of the Laser Cladded CoFeNi2V0.5Nb0.75 and CoFeNi2V0.5Nb High-Entropy Alloy Coatings. Journal of Thermal Spray Technology, 2016, 25(4): 806-814.

[3] Hui Jiang, Li Jiang, Dongxu Qiao, Yiping Lu*, Tongmin Wang, Zhiqiang Cao, Tingju Li. Effect of Niobium on Microstructure and Properties of the CoCrFeNb x Ni High Entropy Alloys. Journal of Materials Science & Technology, 2016, 33(7): 712-717.

2015年：

[1] Li Jiang, Yiping Lu, Yong Dong, Tongmin Wang, Zhiqiang Cao*, Tingju Li. Effects of Nb addition on structural evolution and properties of the CoFeNi2V0.5 high-entropy alloy. Applied Physics a-Materials Science & Processing, 2015, 119(1): 291-297.

2014年：

[1] Li Jiang, Yiping Lu*, Yong Dong, Tongmin Wang, Zhiqiang Cao*, Tingju Li. Annealing effects on the microstructure and properties of bulk high-entropy CoCrFeNiTi0.5 alloy casting ingot. Intermetallics, 2014,44:37-43.

2025年：

[1] Xi Yang, Yubo Zhang, Jiajing Liu, Junrui Huang, Jiaming Liu, Shanhao Du, Tingju Li, Synergistically enhancing the strength-ductility of Al8Mg-matrix composite by constructing CF-CNTs multi-scale reinforcement. Materials Science & Engineering A , 2025, 924: 147845.

[2] Xinchen Li, Kai Zhao, Xuekai Li, Bingzhi Li, Ligyuan Yang, Enyu Guo, Huijun Kang, Zongning Chen*, Tongmin Wang*. Synergistic improvement of corrosion-strength of Al-Mg alloy by trace Sc/Zr and TiB2 particles. Corrosion Science, 2025, 246: 112760.

[3] Lei Liu, Weixiao Yang, Kai Zhao, Tao Zhang, Biao Jiang, Zhirou Zhang, Enyu Guo, Huijun Kang, Zongning Chen, Lingling Pan, Tongmin Wang. The effects of TiB2 on segregation bands, porosities and mechanical properties of hypoeutectic AlSi alloys by high pressure die-casting. Materials Characterization, 2025, 221, 114741.

[4] Guantao Wang, Fuyuan Liu, Kaiyang Li, Lei Liu, Zhirou Zhang, Yanjin Xu, Enyu Guo*, Zongning Chen, Huijun Kang, Tongming Wang*. Precipitation strengthening optimization of TiB2/Al-Cu-Li alloys by modifying the distribution of TiB2 particles via ultrasonic vibration treatment. Materials Science and Engineering: A, 2025, 926: 147977.

[5] Zhifeng Liu, Xiao Chen, Siruo Zhang, Fei Cao, Yihui Jiang, Zongning Chen*, Huijun Kang, Zhiqiang Cao*, Enyu Guo, Shuhua Liang, Tongmin Wang. Preparation, mechanical properties and tribological properties of Cu matrix composites induced by an Al-TiB2 precursor. Journal of Alloys and Compounds,2025, 1020: 179542.

2024年：

[1] Yubo Zhang*, Junrui Huang, Bohan Wang, Jiajing Liu , Shuang Xie, Tingju Li, Tongmin Wang, Improving the graphene distribution and mechanical properties of graphene/Al composites by aminopropyl triethoxysilane modification. Materials Science & Engineering A, 2024, 902: 146624.

[2] Shanhao Du, Yuting Shen, Yubo Zhang, Shaojun Yu, Dehua Liu, and Tingju Li, Movement behavior and separation of Al2O3 from Al melt under rotating magnetic field. China Foundry, 2024, 21625.

[3] Linwei Li, Donghu Zhou, Chengbin Wei, Zhenhao Han, Jiehua Li, Huijun Kang, Enyu Guo, Yubo Zhang, Zongning Chen, Tongmin Wang, Microstructure Evolution and Mechanical Properties at Ambient and Elevated Temperatures of in-situ TiB2/2219Al Matrix Composites During Cold Rolling. Metals and Materials International, 2024, 30(10): 2791-2807.

[4] Xi Yang, Yubo Zhang*, Junrui Huang, Jiaming Liu, Jiale Chen, Tingju Li, Interfacial microstructure evolution and mechanical properties of carbon fiber reinforced Al-matrix composites fabricated by a pressureless infiltration process. Materials Science & Engineering A, 2024, 891: 145968.

[5] Jiajing Liu, Yubo Zhang*, Junrui Huang, Yuting Shen, Shipeng Yue, Jiale Chen, Qidong Ma, TingJu Li, Grain boundary migration behavior and microstructure evolution during multilayer additive hot-compression bonding. Journal of Materials Research and Technology, 2024, 28: 789–798.

[6] Yubo Zhang*, Xi Yang, Miao Cui, Jiaming Liu, Tongmin Wang, Tingju Li, Achieving optimal infiltration behavior of carbon fiber/Al-2219 composites by chemical modification of carbon fiber. Results in Engineering, 2024, 21: 101843.

[7] Kai Zhao, Xinchen Li, Xiangting Liu, Enyu Guo, Huijun Kang, Zhigang Hao, Jiehua Li, Yubo Zhang*, Zongning Chen, Tongmin Wang*, Cavitation-induced particle engulfment via enhancing particle-interface interaction in solidification. Ultrasonics Sonochemistry, 2024, 103: 106801.

[8] Xiaoqi Sun, Jinchuan Jie*, Bo Peng, Guangxu Dong, Jia Liu, Shichao Liu, Tingju Li. Numerical Study and Experimental Verification on Solidification Characteristics in Commercial Purity Aluminum under Mechanical Vibration. Journal of Materials Engineering and Performance, 2024, 33(1): 475-482.

[9] Fuyuan Liu, Guantao Wang, Enyu Guo*, Zhirou Zhang, Zongning Chen, Huijun Kang, Yanjin Xu**, Tongmin Wang. The precipitation behavior of natural aging for Al-Cu-Li alloy after homogenization. Vacuum, 2024, 232(1): 113878.

[10] Zhipeng Ren, Chong Wang, Zelong Du, Enyu Guo*, Zongning Chen, Guohao Du, Huijun Kang, Tongmin Wang**. Regulating the mechanical properties of (μm B4C+nm SiC)/7075Al compositesvia nano-SiC content. Vacuum, 2024, 228(2): 113535.

[11] Fuyuan Liu, Chong Wang, Guangshu Li, Guantao Wang, Enyu Guo *, Zhirou Zhang, Zongning Chen, Huijun Kang, Tongming Wang*. Regulating the microstructure and mechanical properties of Al-Cu-Li alloys via optimizing Cu/Li ratio and homogenization. Journal of Alloys and Compounds, 2024, 1004: 175784.

[12] Xuekai Li, Wei Wang, Yihong Wu, Donghu Zhou, Huijun Kang, Enyu Guo, J.H. Li, Zongning Chen*, Yanjin Xu, Tongmin Wang*. Ultrasonic field-assisted metal additive manufacturing (U-FAAM): Mechanisms, research and future directions. Ultrasonics Sonochemistry, 2024, 111: 107070.

[13] Donghu Zhou, Linwei Li, Kai Zhao, Weixiao Yang, Huijun Kang, Enyu Guo, Jiehua. Li, Tao Zhang, Zongning Chen*, Tongmin Wang*. Comprehensive regulation of mechanical properties and thermal conductivity of Al-Si-Fe alloys through the mixed-additive (Sr and TiB2) strategy. Journal of Alloys and Compounds, 2024, 1005: 175850.

[14] Siruo Zhang, Guanglong Li, Yingdong Qu*, Huijun Kang, Zongning Chen*, Enyu Guo, Wei Zhang, Tongmin Wang. Microstructure and mechanical properties of Cu-Cr-Zr-ZrB2 composites by novel fabrication process of ultrasonic vibration treatment. Journal of Materials Research and Technology, 2024, 26: 2400616.

[15] Linwei Li, Donghu Zhou, Kai Zhao, Lifeng Jiang, Huijun Kang, Enyu Guo, Feng Mao, Zongning Chen*, Tongmin Wang*. Effects of Reinforcement Content and Homogenization Treatment on the Microstructure and Mechanical Properties of in-situ TiB2/2219Al Composites. Acta Metallurgica Sinica (English Letters). 2024, 37: 1421-1437.

[16] Xinchen Li, Kai Zhao, Liyuan Yang, Shuyan Shi, Enyu Guo, Huijun Kang, Zhigang Hao, Zongning Chen*, Tongmin Wang*. The role of TiB2 nanoparticles in reducing the microstructural sensitivity of as-cast Al-Mg-Mn alloy to cooling rate. Materials Science and Engineering: A, 2024, 894: 146157.

[17] Xuekai Li, Wei Wang, Yihong Wu, Huijun Kang, Enyu Guo, J.H. Li, Zongning Chen*, Yanjin Xu, Tongmin Wang*. Improving the corrosion resistance of 7055 alloy by manipulating passivation film through trace addition of TiB2 nanoparticles. Applied Surface Science, 2024, 656: 159722.

[18] Yihong Wu, Linwei Li, Huijun Kang, Enyu Guo, J.H. Li, Guohao Du, Zongning Chen*, Tongmin Wang*. Agglomerating behavior of in-situ TiB2 particles and strength-ductility synergetic improvement of in-situ TiB2p/7075 Al composites through ultrasound vibration. Materials Characterization, 2024, 208: 113652.

[19] Xu Shen, Haidong Zhao, Enyu Guo, Qingyan Xu. Modeling of dendritic growth and particle pushing/engulfment in the solidification of aluminum matrix composites with the CA-LBM-IMB method. International Journal of Thermal Sciences, 2024, 199(1): 108925.

[20] Xinchen Li,Kai Zhao,Liyuan Yang,Enyu Guo,Huijun Kang,Zongning Chen,Tongmin Wang.The synergetic effects of trace Sc/Zr/TiB2 on recrystallization and strengthening behavior of Al-Mg alloys. Rare metals, 2024, Doi: 10.1007/s12598-024-03080-2

[21] Zhao Kai, Li Xinchen, Liu Xiangting, Shi Shuyan, Guo Enyu, Kang Huijun, Hao Zhigang, Li Jiehua, Zhang Yubo, Chen Zongning*, Wang Tongmin*. Achieving superior strength-ductility-conductivity combination in TiB2p/6201 composites via particle rotation and sub-grain refinement. Advanced Engineering Materials, 2024, 26: 2400531.

2023年：

[1] Yubo Zhang*, Wei Wang, Jiajing Liu, Tongmin Wang, TingJu Li, Fabrication of carbon fiber reinforced aluminum matrix composites by inorganic binders, Journal of Alloys and Compounds, 2023, 968: 172213.

[2] Jiaming Liu, Xi Yang, Dongsheng Yue, Shichao Liu, Junjia Zhang, Yubo Zhang, Dong Quan, Guoqun Zhao, Tongmin Wang, Tingju Li, Enhanced interfacial microstructure evolution and mechanical properties of CF/Al–Mg composites with optimal interconnected coating, Journal of Materials Research and Technology, 2023, 27: 5994.

[3] 解双, 张宇博*, 刘嘉鸣, 李廷举, 多粒径颗粒对石墨烯/铝基复合材料组织及性能的影响, 特种铸造及有色合金. 2023,43(03): 330-335.

[4] Wei Wang, Yubo Zhang*, Congcong Yue, Xiangqing Kong, Zhigang Hao, Tongmin Wang, Tingju Li, Processing defect, microstructure evolution and mechanical properties of laser powder bed fusion Al-12Si alloys, Journal of Materials Research and Technology, 2023, 26: 681-696.

[5] 刘俞伯, 申玉婷, 张宇博*, 李绍威, 许晨玲, 李廷举, 电磁搅拌与超声作用对6082铝合金成分偏析的影响研究, 铸造. 2023,72(02): 140-146.

[6] Min Cheng, Siruo Zhang, Zhifeng Liu, Fei Cao, Yihui Jiang, Zongning Chen*, Huijun Kang, Enyu Guo, Shuhua Liang, Tongmin Wang*. In-situ synthesis of TiB2 particulate reinforced copper matrix composites with ultrasonic vibration treatment. Materials Letters, 2023, 335: 133823.

[7] Kai Zhao, Xiangting Liu, Yuan Fang, Enyu Guo, Huijun Kang, Zhigang Hao, Jiehua Li, Guohao Du, Lei Liu, Zongning Chen*, Tongmin Wang**. Multiscale microstructures, mechanical properties and electrical conductivity of in-situ dual-size TiB2 particles reinforced 6201 aluminum matrix composites. Journal of Materials Reseach and Technology, 2023, 23: 5459-5473.

[8] Shengxian Li, Yihong Wu, Wei Wang, Xuejian Wang, Huijun Kang, Enyu Guo, Jiehua Li, Yanjin Xu, Zongning Chen*, Tongmin Wang*. Improving the stress corrosion resistance of 7075 matrix composites through combination of nanoparticle incorporation and retrogression re-aging treatment. Materials Today Communications, 2023, 36: 106639.

[9]Jian Xu, Chong Wang, Enyu Guo*, Zhipeng Ren, Zongning Chen, Guohao Du, Huijun Kang, Tongmin Wang*. Tailoring the enhanced mechanical behavior of 6061Al composites via nano SiCp and micron B4Cp addition. Journal of Materials Research and Technology, 2023, 27: 1550-1562.

[10]Minqiang Gao, Enyu Guo*, Zongning Chen, Huijun Kang, Tongmin Wang**. Revealing the role of micropore defects in tensile deformation of a B4Cp/Al composite using an actual three-dimensional model. Journal of Materials Research and Technology, 2023, 22: 3146-3155.

[11] 白淑英, 王冲, 郭恩宇*, 陈宗宁, 康慧君, 王同敏. SiCp/Mg-6Zn-3Al复合材料力学行为有限元建模研究. 特种铸造及有色合金. 2023, 43(12): 1620-1627.

[12] 张虎, 刘福源, 郭恩宇*, 陈宗宁, 康慧君, 王同敏. TiB2/Al-Cu-Li复合材料时效析出及组织演变对力学性能的影响.复合材料学报, 2023, 40(12): 6819-6829.

2022年：

[1] Jiaming Liu, Yubo Zhang*, Wei Wang, Xi Yang, Shichao Liu, Junjia Zhang, Zhongkai Guo, Tongmin Wang, Tingju Li, Interfacial enhancement and mechanical properties of CF/Al composites with improved interfacial structure induced by Al–Ni–Mg ternary reaction, Materials Science and Engineering: A, 2022, 831: 142040.

[2] Jia Liu, Jinchuan Jie*, Xianlong Wang, Shumin Lou, Bo Peng, Tingju Li. Formation Mechanism of Three-Layer Solidified Structure in Commercial Purity Al During Solidification With a Forced Flow Field Induced by Pulsed Magnetic Field. Metallurgical and Materials Transactions A, 2022, 53(12): 4362-4376.

[3] 刘佳, 接金川*, 曲建平, 李国梁, 李廷举. 脉冲磁场控制铝及铝合金凝固组织的研究进展[J]. 铸造技术, 2022(008): 043.

[4] Linwei Li, Zhenhao Han, Minqiang Gao, Shaowei Li, Huihui Wang, Huijun Kang, Enyu Guo, Zongning Chen*, Tongmin Wang**. Microstructures, mechanical properties, and aging behavior of hybrid-sized TiB2 particulate-reinforced 2219 aluminum matrix composites. Materials Science and Engineering: A, 2022, 829: 142180.

[5] Siruo Zhang, Huijun Kang, Min Cheng, Zongning Chen*, Zhicheng Wang, Enyu Guo, Jiehua Li, Tongmin Wang*. Ultrasound-assisted solidification of a Cu-Cr alloy. Acta Metallurgica Sinica (English Letters), 2022, 35(12): 2082-2088.

[6] Kai Zhao, Mengmeng Liu, Huijun Kang, Enyu Guo, Jiehua Li, Lei Liu, Zongning Chen*, Tongmin Wang*. Formation mechanism of TiB2 nanoparticles and development of TiB2P/6201 nanocomposites as a neoteric conducting material. Journal of Alloys and Compounds, 2022, 916: 165461.

[7] Yihong Wu, Boxiao Liu, Huijun Kang, Enyu Guo, Jiehua Li, Guohao Du, Zongning Chen*, Tongmin Wang*. Ultrasound-assisted dispersion of TiB2 nanoparticles in 7075 matrix hybrid composites. Materials Science and Engineering: A, 2022, 840: 142958.

[8] Siruo Zhang, Huijun Kang, Min Chen, Yihui Jiang, Fei Cao, Enyu Guo, Zongning Chen*, Shuhua Liang, Tongmin Wang*. A research on the electrical sliding behavior wear of dual-scale particulate reinforced copper matrix composites. Materials Characterization, 2022, 184: 111708.

2021年：

[1] Jingwei Xian, L. Peng, Guang Zeng, Di Wang, Christopher M. Gourlay. Al11Mn4 Formation on Al8Mn5 During the Solidification and Heat Treatment of AZ-series Magnesium Alloys. Materialia, 2021, 19: 101192.

[2] Bohan Wang, Jiaming Liu, Shipeng Yue, Xianlong Wang, Yubo Zhang*, Ying Fu, Tingju Li, Tongmin Wang, Preparation of graphene/Al composites with a lamellar structure by silane cross-linking graphene oxide, Journal of Materials Research and Technology, 2021,13: 2433-2441.

[3] Jiaming Liu, Yubo Zhang*, Zhongkai Guo, Shichao Liu, Junjia Zhang, Jinchuan Jie, Ying Fu, Tingju Li, Enhancement of fiber-matrix adhesion in carbon fiber reinforced Al-matrix composites with an optimized electroless plating process, Composites Part A: Applied Science and Manufacturing, 2021,142: 106258.

[4] Jiaming Liu, Yubo Zhang*, Zhongkai Guo, Shichao Liu, Junjia Zhang, Enyu Guo, Jinchuan Jie, Tongmin Wang, Tingju Li, In situ infiltration behavior and interfacial microstructure evolution between Al and carbon fibers, Journal of Alloys and Compounds, 2021, 853: 157120.

[5] Junjia Zhang, Jinchuan Jie, Yiping Lu, Yubo Zhang, Cunlei Zou, Ying Fu, Tingju Li, Fabrication of carbon fibers reinforced Al-matrix composites in pulsed magnetic field, Journal of Materials Research and Technology, 2021, 11: 197-210.

[6] 赵燕, 张宇博*, 李廷举, 王玮, 李绍威, 许晨玲, 稀土元素La对Al-0.5Mg-0.24Si合金组织和性能的影响, 特种铸造及有色合金. 2021,41(10): 1219-1223.

[7] Jinchuan Jie*, Shipeng Yue, Jia Liu, David Henry Stjohn, Yubo Zhang, Enyu Guo, Tongmin Wang, Tingju Li. Revealing the mechanisms for the nucleation and formation of equiaxed grains in commercial purity aluminum by fluid-solid coupling induced by a pulsed magnetic field. Acta Materialia, 2021, 208: 116747.

[8] Bingyang Gao, Xiangrui Meng, Enyu Guo, Hui Liang, Zhiqiang Cao*, Tongmin Wang*. Effects of Ni on the nucleation and growth behavior of Cu6Sn5 in Sn-8.5Cu alloy: An in situ observation. Journal of Alloys and compounds, 2021, 862: 158603.

[9] Siruo Zhang, Huijun Kang, Zhicheng Wang, Enyu Guo, Zongning Chen*, Tongmin Wang**. Microstructure and properties of dual-scale particulate reinforced copper matrix composites with superior comprehensive properties. Journal of Alloy and Compounds, 2021, 860: 157888.

[10] Yanhua Zeng, Fenfen Yang, Zongning Chen, Enyu Guo*, Minqiang Gao, Xuejian Wang, Huijun Kang*, Tongmin Wang. Enhancing mechanical properties and corrosion resistance of nickel-aluminium bronze via hot rolling process. Journal of Materials Science and Technology, 2021, 61: 186-196.

[11] Minqiang Gao, Zongning Chen, Linwei Li, Enyu Guo*, Huijun Kang, Yanjin Xu, Tongmin Wang**. Microstructure and enhanced mechanical properties of hybrid-sized B4C particle-reinforced 6061Al matrix composites. Materials Science and Engineering: A, 2021, 802: 140453.

2020年：

[1] 李廷举, 刘嘉鸣, 杨茜, 张宇博*, 碳纤维增强铝基复合材料制备及强化机制研究进展, 特种铸造及有色合金. 2020,40(11): 1177-1181.

[2] 付莹, 付连生, 张宇博, 关欣, 郭继宁, 马征, 张鹏, La对氟盐法制备Al-Ti-B-La反应机理及其细化效果的影响, 中国有色金属学报. 2020,30(08): 1781-1790.

[3] Jin Xu, Yang Li, Ke Ma, Yanan Fu, Enyu Guo, Zongning Chen, Qinfen Gu, Yuexing Han, Tongmin Wang, Qian Li*. In-situ observation of grain refinement dynamics of hypoeutectic Al-Si alloy inoculated by Al-Ti-Nb-B master alloy. Scripta Materialia, 2020, 187: 142-147.

[4] Kai Zhao, Huijun Kang, Yihong Wu, Mengmeng Liu, Enyu Guo, Zongning Chen*, Tongmin Wang. Manipulating the particle distribution of in situ TiB2p/Al composites via acoustic vibration and cooling rate. Materials Letters, 2020, 262: 127063.

[5] Wei Wang, Enyu Guo*, A.B. Phillion, Dmitry, Tongmin Wang, Peter D Lee. Semi-solid Compression of Nano/Micro-Particle Reinforced Al-Cu Composites: An In Situ Synchrotron Tomographic Study. Materialia, 2020, 12: 100817.

[6] Peng Peng, Mingqiang Gao, Enyu Guo*, Huijun Kang, Honglan Xie, Zongning Chen**, Tongmin Wang. Deformation behavior and damage in B4Cp/6061Al composites: An actual 3D microstructure-based modeling. Materials Science and Engineering: A, 2020, 781: 139169.

[7] Minqiang Gao, Huijun Kang,Zongning Chen, Enyu Guo*, Ying Fu, Yanjin Xu, Tongmin Wang**. Enhanced strength-ductility synergy in a boron carbide reinforced aluminum matrix composite at 77 K. Journal of Alloys and Compounds, 2020, 818: 153310.

[8] Feng Mao, Shizhong Wei, Chong Chen, Cheng Zhang, Xiaodong Wang, Zhiqiang Cao*. Modification of the silicon phase and mechanical properties in Al-40Zn-6Si alloy with Eu addition. Materials & Design,2020,186: 108268.

2019年：

[1] Guangye Xu, Yingshui Yu, Yubo* Zhang, Tingju Li, Tongmin Wang, Effect of B4C particle size on the mechanical properties of B4C reinforced aluminum matrix layered composite, Science and engineering of composite materials, 2019, 26: 53-61.

[2] P. Inácio, Zhang Y , Jie J ,et al.Effect of Amorphous Layer on the Microstructure and Properties of Al-B4C Layered Composite.International Journal of Engineering Trends and Technology, 2019, 67: 52.

[3] Yubo Zhang, Tongmin Wang, Tingju Li , Crystallization Behavior of Iron-Containing Intermetallic Compounds in Al-Si Alloy Under Ultrasonic Treatment , LIGHT METALS 2019, 1631-1635.

[4] Feng Mao, Shizhong Wei*, Liming Ou, Cheng Zhang, Chong Chen, Xiaodong Wang, Zhiqiang Cao*. Different Influences of Rare Earth Eu Addition on Primary Si Refinement in Hypereutectic Al-Si Alloys with Varied Purity. Materials, 2019,12(21): 3505.

[5] Jinchuan Jie*, Zhilin Zheng, Shichao Liu, Shipeng Yue, Tingju Li. Solidification structure evolution of immiscible Al–Bi–Sn alloys at different cooling rates. Journal of Materials Research, 2019, 34(14): 2563-2571.

[6] Fenfen Yang, Huijun Kang, Zongning Chen, Enyu Guo*, Yanhua Zeng, Wei Wang, Tongmin Wang*. Electrochemical corrosion mechanisms of nickel-aluminium bronze with different nickel contents using the rotating disc electrode. Corrosion Science, 2019, 157: 438-449.

[7] Minqing Gao, Zongning Chen, Huijun Kang, Enyu Guo*, Rengeng Li, Ying Fu, Honglan Xie, Tongmin Wang*. Microstructural characteristics and mechanical behavior of B4Cp/6061Al composites synthesized at different hot-pressing temperatures. Journal of Materials Science and Technology, 2019, 35(8): 1523-1531.

[8] Minqiang Gao, Huijun Kang, Zongning Chen, Enyu Guo*, Peng Peng, Tongmin Wang*. Effect of reinforcement content and aging treatment on microstructure and mechanical behavior of B4Cp/6061Al composites. Materials Science and Engineering: A, 2019, 744: 682-690.

2018年：

[1] Guang Zeng, Jingwei Xian, Christopher M. Gourlay. Nucleation and Growth Crystallography of Al8Mn5 on B2-Al(Mn,Fe) in AZ91 Magnesium Alloys. Acta materialia, 2018, 153: 364-376.

[2] Qingchuan Zou, Ning Han, Zhangfeng Shen, Jinchuan Jie*, Tingju Li. Effects of AlB2/AlP phase and electromagnetic stirring on impurity B/P removal in the solidification process of Al-30Si alloy. Separation and Purification Technology, 2018, 207: 151-157.

[3] Yanjin Xu*, Lijun Wei, Baoshuai Han, Enyu Guo*, Mingyu Wang, Yanqing Su. Effect of a traveling magnetic field on micropore formation in Al-Cu alloys. Metals, 2018, 8(6): 448.

[4] Yingchun Xie, Shuo Yin*, Jan Cizek, Jan Cupera, Enyu Guo, Rocco Lupoi*. Formation mechanism and microstructure characterization of nickel-aluminum intertwining interface in cold spray, Surface and coatings Technology, 2018, 337: 447-452.

2017年：

[1] Guang Zeng, Jingwei Xian, and Christopher M. Gourlay. Growth of Al8Mn5 Intermetallic in AZ91. The Minerals, Metals & Materials Series Magnesium Technology 2017, 2017 : 85-92.

[2] Feng Mao, Junqi Li, Guangyuan Yan, LongJiang Zou, Zhiqiang Cao*, Tongmin Wang. Effect of Eu on the silicon phase in Al-40Zn-5Si alloys. Journal of Alloys and Compounds, 2017,722:116-130.

[3] Qingchuan Zou*, Jinchuan Jie*, Shichao Liu, Xinglong Sun, Tingju Li, Tongmin Wang, Guomao Yin. Effect of Sn addition on the separation and purification of primary Si from solidification of Al-30Si melt under electromagnetic stirring. Journal of Alloys and Compounds, 2017, 725: 1264-1271.

2016年：

[1] Junjia Zhang, Shichao Liu, Yiping Lu*, Xuelin Yin, Yubo Zhang, Tingju Li*. Liquid rolling of woven carbon fibers reinforced Al5083-matrix composites[J]. Materials & Design, 2016, 95: 89-96.

[2] Guangyuan Yan, Feng Mao, Fei Chen, Wei Wu, Zhiqiang Cao*, Tongmin Wang, Tingju Li. Characteristics evolution of 6009/7050 bimetal slab prepared by direct-chill casting process. Transactions of Nonferrous Metals Society of China, 2016,26(4):895-904.

[3] Feng Mao, Guangyuan Yan, Junqi Li, Tongmin Wang, Zhiqiang Cao*. The interaction between Eu and P in high purity Al-7Si alloys. Materials Characterization, 2016,120:129-142.

[4] Guangyuan Yan, Feng Mao, Jinchuan Jie, Zhiqiang Cao*, Tingju Li, Tongmin Wang*. Effect of Sr addition on the characteristics of as-cast and rolled 3003/4004 clad aluminum. Journal of Alloys and Compounds, 2016,678:201-211.

[5] Jinling Sun, Qingchuan Zou, Jinchuan Jie*, Tingju Li. Separation of primary Si and impurity boron removal from Al-30% Si-10% Sn melt under a traveling magnetic field. China Foundry, 2016, 13(4): 284-288.

[6] Kateryna Svynarenko, Jinchuan Jie*, Yubo Zhang, Valentyna Kutsova, Tingju Li. Effect of green preform composition, temperature and duration conditions on microstructure and performance of Al-5Ti-0.2 C master alloy. International Journal of Materials Research, 2016, 107(2): 168-176.

2015年：

[1] Feng Mao, Guangyuan Yan, Zhenjing Xuan, Zhiqiang Cao *, Tongmin Wang*. Effect of Eu addition on the microstructures and mechanical properties of A356 aluminum alloys. Journal of Alloys and Compounds, 2015,650:896-906.

[2] Feng Mao, Fei Chen, Guangyuan Yan, Tongmin Wang, Zhiqiang Cao*. Effect of strontium addition on silicon phase and mechanical properties of Zn-27Al-3Si alloy. Journal of Alloys and Compounds, 2015,622:871-879.

[3] Qingchuan Zou, Jinchuan Jie*, Jinling Sun, Tongmin Wang, Zhiqiang Cao, Tingju Li. Effect of Si content on separation and purification of the primary Si phase from hypereutectic Al–Si alloy using rotating magnetic field. Separation and Purification Technology, 2015, 142: 101-107.

[4] Sudhanshu S. Singh, Enyu Guo, Huxiao Xie, Nikhilesh Chawla*. Mechanical properties of intermetallic inclusions in Al 7075 alloys by micropillar compression. Intermetallics, 2015, 62: 69-75.

2014年：

[1] Jinchuan Jie*, Qingchuan Zou, Jinling Sun, Yiping Lu, Tongmin Wang, Tingju Li*. Separation mechanism of the primary Si phase from the hypereutectic Al–Si alloy using a rotating magnetic field during solidification. Acta Materialia, 2014, 72: 57-66.

[2] Feng Mao, Fei Chen, Qiang Han, Jingyu Han, Zhiqiang Cao*, Tongmin Wang, Tingju Li. Real time observation on the solidification of strontium-modified zinc-aluminum-silicon alloys by synchrotron microradiography. Journal of Alloys and Compounds, 2014,608:343-351.

[3] Jinchuan Jie*, Jialei Zhao, Hang Chen, Ying Fu, Zhiqiang Cao, Tingju Li. Effect of Ni-based conversion coating and Ni–P electroless plating on the bonding process of pure Al and AZ31 alloy. International journal of materials research, 2014, 105(5): 462-468.

2002年：

[1] Zhiqiang Cao, Fei Jia, Xingguo Zhang, Hai Hao, Junze Jin. Microstructures and mechanical characteristics of electromagnetic casting and direct-chill casting 2024 aluminum alloys. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2002,327(2):133-137.

2025年：

[1] Jing Wang, Xuejian Wang*, Zongning Chen, Huijun Kang, Tongmin Wang, Enyu Guo*. In vitro corrosion behavior and mechanical property of novel Mg-Sn-In-Ga alloys for orthopedic applications. Acta Metallurgica Sinica (English Letters), 2025, DOI: 10.1007/s40195-024-01800-2.

[2] Fu Wang, Hongrui Li, Zhirou Zhang, Yafei Liu,Enyu Guo, Zongning Chen , Huijun Kang, Tongmin Wang. The investigation of microstructure evolution and strength-ductility mechanism of Mg-5Bi-xAl alloys. Materials Science and Engineering: A, 2025, 934; 148273.

[3] Hongrui Li, Zhirou Zhang *, Chao Xu, Yafei Liu, Lifeng Jiang, Shuo Ying, Huijun Kang, Zongning Chen, Enyu Guo **, Tongmin Wang, Achieving high strength via significantly enhanced precipitation strengthening in Mg-5Bi-3Al-xSn alloys, Journal of Alloys and Compounds, 2025, 1033, 181269.

[4] Hangze Wu, Zelong Du, Yukang An, Zongning Chen, Zhirou Zhang, Huijun Kang, Tongzheng Xin, Enyu Guo*, Guohao Du, Tongmin Wang**. Grain refinement and mechanical property enhancement of AM60B magnesium alloy via TiB2 particle regulation[J]. Materials Today Communications. 2025, 47: 112999.

2024年：

[1] Enyu Guo*, Zelong Du, Xiaobo Chen, Zongning Chen, Huijun Kang, Zhiqiang Cao, Yiping Lu, Tongmin Wang*. Development of magnesium alloys: advanced characterization using synchrotron radiation techniques. Journal of Materials Science and Technology, 2024, 195(1): 93-110.

[2] Xuejian Wang,Chunquan Liu*,Enyu Guo**,Huaqiang Xiao. Toward strength-ductility synergy in as-rolled Mg-Zn-Gd alloy achieved by annealing-induced solute segregation. Journal of Rare Earth, 2024, DOI: 10.1016/j.jre.2024.12.010.

[3] Yibo Ouyang, Zhihao Zhou, Enyu Guo*, Ri Qiu**, Zongning Chen, HUijun Kang, Tongmin Wang***. Boosting corrosion resistance of Mg-Li Alloy: Implanting bioinspired superhydrophobic surfaces into MAO matrix for enhanced protection. Ceramics International, 2024, 50(22): 48425-48439.

[4] Yibo Ouyang, Enyu Guo*, Xiaobo Chen**, Huijun Kang, Zongning Chen and Tongmin Wang*. Recent progress in protective coatings against corrosion upon magnesium-lithium alloys: A critical review. Journal of Magnesium and Alloys, 2024, 12: 3967-3995.

[5] Bingzhi Li, Yibo Ouyang, Enyu Guo*, Zhihao Zhou, Xinran Hou, Huijun Kang, Zongning Chen, Xiao-Bo Chen, Tongmin Wang*. MAO-based Solid-like Slippery Composite Coating with Superior Corrosion Resistance and Robust Machinery Performance upon Magnesium-Lithium Alloy LA81. Chemical Engineering Journal, 2024, 497: 154801.

[6] Chong Wang, Hongrui Li, Fuyuan Liu, Enyu Guo*, Zongning Chen, Huijun Kang, Guohao Du, Yanlin Xu, Tongmin Wang**. The investigation of strength-ductility mechanism of bimodal size SiC_p/Mg-Zn matrix composite. Ceramics International, 2024, 50: 32383-32397.

[7] Chong Wang, Zelong Du, Enyu Guo*, Shuying Bai, Zongning Chen, Huijun Kang, Guohao Du, Yanling Xue, Tongmin Wang*. Mechanical behavior of SiCp reinforced ZA63 Mg matrix composites: experiments and 3D finite element modelling, Journal of Magnesium and Alloys, 2024, DOI: 10.1016/j.jma.2024.03.027.

[8] Hongrui Li, Chong Wang, Yukang An, Enyu Guo*, Shuyan Shi, Fengyu Yu, Zongning Chen, Huijun Kang, Tongmin Wang*. Achieving excellent mechanical properties in Mg-5Bi-3Al alloy via ultra-fine grain and high-density precipitates, Journal of Magnesium and Alloys, 2024, DOI: 10.1016/j.jma.2024.03.024.

[9] Yingwei Yang, Keqiang Su, Kai Zhao, Hongrui Li, Enyu Guo*, Zongning Chen, Tongzheng Xin, Huijun Kang, Tongmin Wang**. Strengthening of duplex Mg-9Li-3Al-2Zn-1Sn alloy by solid solution and mixed rolling-induced second phase transition. Materials Science and Engineering A, 2024, 900: 146491.

[10] Chong Wang, Fuyuan Liu, Xuejian Wang, Enyu Guo*, Zelong Du, Kunkun Deng, Zongning Chen, Huijun Kang, Guohao Du, Tongmin Wang*. Tailoring the Microstructure and Mechanical Property of Mg-Zn Matrix Composite via the Addition of Al Element. Acta Metallurgica Sinica (English Letters), 2024, 37: 438-452.

[11] Xuejian Wang, Yong Huang, Linsen Yang, Yongbin Liu, Chengcheng Wang*, Enyu Guo**. Effects of Ga/Ag addition on corrosion behavior, cytotoxicity, and antibacterial activity of biodegradable Mg-2Zn alloy. Journal of Materials Research and Technology, 2024, 29: 3144-3155.

[12] Fan Ji; Tongzheng Xin; Yuhong Zhao; Wenkui Yang; Guoning Bai; Song Tang; Enyu Guo; Mengran Zhou; Qingyu Shi; Luqing Cui; Long-Qing Chen; Binbin He; Enhancing plasticity in BCC Mg-Li-Al alloys through controlled precipitation at grain boundaries, International Journal of Plasticity, 2024, 181: 104105.

[13] Jiaming Liu, Xi Yang, Bowen Dong, Shichao Liu*, Yubo Zhang,**, Guoqun Zhao, Tongmin Wang, Tingju Li, Microstructure evolution and enhanced mechanical properties of CF/Mg composites with optimized fiber/matrix interfacial adhesion. Composites: Part B , 2024,287: 111852.

[14] 杜宜卓, 郭恩宇*. 挤压温度对TC4_p/ZK60复合材料组织及力学性能的影响. 特种铸造及有色合金. 2024, 44(8): 1097-1103.

2023年：

[1] Xuejiang Wang, Huaqiang Xiao, Bo Lin, Keqiang Su, Tongmin Wang, Enyu Guo*. Effect of Extrusion Temperature on the Mechanical Properties and Corrosion Behavior of LZ91 Alloys. Acta Metallurgica Sinica (English Letters), 2023, 36(11): 1822-1832.

[2] Zhihao Zhou, Yibo Ouyang, Enyu Guo*, Ri Qiu**, Huijun Kang, Bingzhi Li, Zongning Chen, and Tongmin Wang. Biomimetic superhydrophobic matrix constructed on a buffer aluminum layer: a compositing coating for Mg-Li alloy corrosion inhibition. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 676: 132268.

[3] Chong Wang, Hongrui Li, Enyu Guo*, Xuejian Wang, Huijun Kang, Zongning Chen, Tongmin Wang**. The effect of Gd on the microstructure evolution and mechanical properties of Mg-4Zn-0.6Ca alloy. Materials Science and Engineering: A, 2023, 868: 144756.

[4] Yibo Ouyang, Huijun Kang, Enyu Guo*, Ri Qiu**, Keqiang Su, Zongning Chen, Tongmin Wang*. Thermo-driven oleogel-based self-healing slippery surface behaving superior corrosion inhibition to Mg-Li alloy. Journal of Magnesium and Alloys, 2023, 11(12): 4710-4723.

[5] Xueqin Liu, Xuejian Wang, Enyu Guo*, Zongning Chen, Huijun Kang, and Tongmin Wang*, Influence of deformation on the corrosion behavior of LZ91Mg-Li alloy. International Journal of Minerals, Metallurgy and Materials, 2023, 30(3): 72-81.

[6] 王双丰, 苏科强, 郭恩宇*, 陈宗宁, 康慧君, 王同敏. 复合变形对LA83镁锂合金组织与力学性能的影响. 中国有色金属学报, 2023, 33(11): 3629-3637.

[7] 杜泽龙, 郭恩宇*, 王同敏. 金属凝固: 基于同步辐射成像技术的应用研究现状与展望. 特种铸造及有色合金, 2023, 43(10): 1319-1335.

2022年：

[1] 李国佳, 王冲, 郭恩宇*, 康慧君, 陈宗宁, 王同敏. Ca和Sn对Mg-4Zn合金组织和力学性能的影响. 特种铸造及有色合金, 2022, 42(10): 1263-1270.

[2] Yibo Ouyang, Zongning Chen, Enyu Guo*, Ri Qiu**, Xuejian Wang, Huijun Kang, Tongmin Wang*. Bioinspired superhydrophobic surface via one-step electrodeposition and its corrosion inhibition for Mg-Li alloy. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 648: 129145.

[3] Xin Zhang, Keqiang Su, Huijun Kang, Lei Liu, Enyu Guo*, Zongning Chen, Tongmin Wang*. Improving the mechanical properties of duplex Mg-Li-Zn alloy by mixed rolling processing. Materials Today Communications, 2022, 31: 103538.

[4] Xuejian Wang, Zongning Chen, Enyu Guo*, Huijun Kang, Zhiqiang Cao, Yanan Fu, Tongmin Wang*. Corrosion process of Mg-Sn alloys revealed via in situ synchrotron X-ray radiography. Materials Letters, 2022, 308: 131139.

2021年：

[1] Xuejian Wang, Zongning Chen, Yubo Zhang, Enyu Guo*, Huijun Kang, Pei Han*, Tongmin Wang. Influence of microstructural characteristics on corrosion behavior of Mg-5Sn-3In alloy in Hank's solution. Transactions of Nonferrous Metals Society of China, 2021, 31: 2999-3011.

[2] Xuejian Wang, Yubo Zhang, Enyu Guo*, Zongning Chen, Huijun Kang, Xueqin Liu, Pei Han**, Tongmin Wang. In vitro investigation on microstructure, bio-corrosion properties and cytotoxicity of as-extruded Mg-5Sn-xIn alloys. Journal of Alloys and Compounds, 2021, 877: 160294.

[3] Jiaming Liu, Yubo Zhang*, Wei Wang, Shichao Liu, Junjia Zhang, Ying Fu, Tongmin Wang, Tingju Li, Effects of interfacial diffusion induced infiltration process on the microstructure evolution and interfacial enhancement of CF/Mg composites, Journal of Materials Processing Technology, 2021, 294: 117143.

[4] 郭恩宇*, 范国华, 王同敏. 金属材料的组织演化机理: 基于同步辐射光源的原位研究进展. 失效分析与预防, 2021, 16(1): 1-13.

[5] 王玮, 郭恩宇*, 王同敏. 铝基复合材料半固态压缩变形组织演化同步辐射原位CT研究. 材料工程, 2021, 49(4): 95-101.

[6] 王冲, 郭恩宇*, 王同敏. 基于同步辐射成像技术的镁合金微结构演化研究进展. 中国材料进展, 2021, 40(5): 339-351.

2020年：

[1] Xuejian Wang, Zongning Chen, Jing Ren, Huijun Kang, Enyu Guo*, Jiehua Li, Tongmin Wang*. Corrosion behavior of as-cast Mg-5Sn based alloys with In additions in 3.5 wt% NaCl solution. Corrosion Science, 2020, 164: 108318.

2019年：

[1] Shuang Nie, Bingyang Gao, Xuejian Wang, Zhiqiang Cao*, Enyu Guo*, Tongmin Wang. The influence of holding time on the microstructure evolution of Mg-10Zn-6.8Gd-4Y alloy during semi-solid isothermal heat treatment. Metals, 2019, 9(4): 420.

[2] Jing Ren, Enyu Guo, Xuejian Wang, Huijun Kang, Zongning Chen*, Tongmin Wang**. Influence of alloyed Ga on the microstructure and corrosion properties of as-cast Mg-5Sn alloys. Materials, 2019, 12(22): 3686.

[3] Pengqi Wang, Enyu Guo*, Xuejian Wang, Huijun Kang, Zongning Chen, Zhiqiang Cao, Tongmin Wang*. The influence of Sc addition on microstructure and tensile mechanical properties of Mg-4.5Sn-5Zn alloys, Journal of Magnesium and Alloys, 2019, 7(3): 456-465.

2018年：

[1] Sansan Shuai, Enyu Guo***, Jiang Wang****, Andre B. Phillion, Tao Jing**, Zhongming Ren, Peter D Lee*. Synchrotron tomographic quantification of the influence of Zn concentration on dendritic growth in Mg-Zn alloys. Acta Materialia, 2018, 156: 287-296.

[2] Enyu Guo*, Sansan Shuai, Daniil Kazantsev, Shyamprasad Karagadde, A.B. Phillion, Tao Jing, Wenzhen Li, Peter D. Lee*. The influence of nanoparticles on dendritic grain growth in Mg alloys. Acta Materialia, 2018, 152: 127-137.

2017年：

[1] Enyu Guo**, A.B. Phillion, Biao Cai, Sansan Shuai, Daniil Kazantsev, Tao Jing, Peter D. Lee*. Dendritic evolution during coarsening of Mg-Zn alloys via 4D synchrotron tomography. Acta Materialia, 2017, 123: 373-382.

2016年：

[1] Sansan Shuai, Enyu Guo***, A.B. Phillion, Mark D. Callaghan, Tao Jing**, Peter D. Lee *. Fast synchrotron X-ray tomographic quantification of dendrite evolution during the solidification of Mg-Sn alloy. Acta Materialia, 2016, 118: 260-269.

[2] Sansan Shuai, Enyu Guo*, Qiwei Zheng, Mingyue Wang, Tao Jing**. Characterization of three-dimensional dendritic morphology and orientation selection of α-Mg in Mg-Ca alloy using synchrotron X-ray tomography. Materials Characterization, 2016, 111: 170-176.

2025年:

[1] Yancheng Li, Jingyu Pang, Zhen Li, Qing Wang*, Zhenhua Wang, Jinlin Li, Hongwei Zhang*, Zengbao Jiao, Chuang Dong, Peter K. Liaw. Developing novel low-density high-entropy superalloys with high strength and superior creep resistance guided by automated machine learning. Acta Materialia, 2025, 285:120656.

2024年:

[1] Yao Zhang, Jinlin Li, Yancheng Li, Jinxin Dong, Caiyu Guo, Hongyao Yu*, Qing Wang*. Influence of post-processing on the microstructure and mechanical properties of high-strength Ni–Co-base wrought superalloy. Intermetallics, 2024, 173108401-108401.

[2] Lihua Fan, Jinlin Li, Jiudong Sun, Mengtian Lv, Qing Wang*, Chuang Dong. Effect of Cr/Mo/W on the Thermal Stability of γ/γ′ Coherent Microstructure in Ni-Based Superalloys. Acta Metall Sin, 2024, 60(4): 453-463.

[3] Jinlin Li, Jiaqi Zhang, Zhen Li, Qing Wang*, Chuang Dong, Fen Xu, Lixian Sun, Peter K. Liaw. Effect of Ti/Nb/Ta addition on the γ/γ' coherent microstructure in low-density and high-strength Co-Al-W-Mo-based superalloys. Journal of Materials Science & Technology, 2024, 186:174-187.

[4] Sihan Sun, Jingwei Xian, Chen-Lin Hsieh & Christopher M. Gourlay. Misorientations and Subgrains in Sn-Ag and Sn-Ag-Cu Solder Balls after Solidification. Journal of Electronic Materials, 2024, 53: 8024-8038.

[5] Yilun Xu, Jingwei Xian, Richard J. Coyle, Christopher M. Gourlay, Fionn P.E. Dunne. Mechanistic Understanding of Microstructural Effects on the Thermal Fatigue Resistance of Solder Joints. Journal of the Mechanics and Physics of Solids, 2024, 187:105623.

[6] Jingwei Xian，Yilun Xu，Stoyan Stoyanov，Richard J. Coyle，Fionn P.E. Dunne，Christopher M. Gourlay. The Role of Microstructure in the Thermal Fatigue of Solder Joints. Nature Communications, 2024, 15: 4258.

[7] Ben Niu, Zhen Li*, Qing Wang*, Zhenhua Wang, Sen Ge,C huang Dong, Ruiqian Zhang*, Donghui Wen, Huiqun Liu, Peter K. Liaw. Phase-field simulation of α-α′ phase separation in nuclear Fe-Cr-Al-based alloys induced by chemical composition and irradiation. Materials Today Communications, 2024, 38: 108431.

[8] Cenyang Wang, Zhihao Zhu, Mengfan Song, Shuang Zhang, Qing Wang*, Chuang Dong*. The equivalence of titanium alloys defined via β phase decomposition paths. Journal of Materials Science, 2024, 60(3): 1-14.

[9] Xuekai Li, Wei Wang, Yihong Wu, Huijun Kang, Enyu Guo，Jiehua Li，Zongning Chen*, Yanjin Xu, Tongmin Wang**. Improving the corrosion resistance of 7055 alloy by manipulating passivation film through trace addition of TiB2 nanoparticles. Applied Surface Science, 2024, 656: 159722.

[10] Linwei Li, Donghu Zhou, Chengbin Wei, Zhenhao Han, Jiehua Li, Huijun Kang, Enyu Guo, Yubo Zhang*, Zongning Chen, and Tongmin Wang**. Microstructure Evolution and Mechanical Properties at Ambient and Elevated Temperatures of in-Situ TiB2/2219Al Matrix Composites During Cold Rolling. Metals and Materials International, 2024,30(10): 2791-2807.

[11] Linwei Li, Donghu Zhou, Kai Zhao, Lifeng Jiang, Huijun Kang, Enyu Guo, Feng Mao, Zongning Chen*, and Tongmin Wang**, Effects of Reinforcement Content and Homogenization Treatment on the Microstructure and Mechanical Properties of in-situ TiB2/2219Al Composites. Acta Metallurgica Sinica: English Letters, 2024, 37(8): 1421-1437.

[12] Kai Zhao, Xinchen Li, Xiangting Liu, Shuyan Shi, Enyu Guo, Huijun Kang, Zhigang Hao, Jiehua Li, Yubo Zhang, Zongning Chen*, Tongmin Wang*. Achieving superior strength-ductility-conductivity combination in TiB2p/6201 composites via particle rotation and sub-grain refinement. Advanced Engineering Materials, 2024, 26: 2400531.

2023年:

[1] Yao Zhang, Jinlin Li, Hongyao Yu, Jiudong Sun, Zhenhua Wang, Qing Wang*. Effect of Ti/Nb/Ta addition on high-temperature microstructural stability of coherent γ/γ′ in Ni–Al–(Cr,Mo,W) superalloys. Journal of Materials Research, 2022, 38(3): 729-740.

[2] Hou N，Jingwei Xian，Sugiyama, A，Yasuda, H，Christopher M. Gourlay. Ag3Sn Morphology Transitions During Eutectic Growth in Sn-Ag Alloys. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2023, 54: 909-927.

[3] Yi Cui, Jingwei Xian, A. Zois, Katharina T. Marquardt, H. Yasuda, Christopher M. Gourlay. Nucleation and Growth of Ag3Sn in Sn-Ag and Sn-Ag-Cu Solder Alloys. Acta Materialia, 2023, 249: 118831.

[4] Zhihao Zhu, Zhipeng Chen, Tianyu Liu, Shuang Zhang, Chuang Dong*, Qing Wang*. Microstructure and Mechanical Properties of As-Cast Ti-Al-V Alloys with Different Proportion of α / β Clusters. Acta Metall Sin(English Letters), 2023, 59(12): 1581-1589.

[5] KaiZhao, Xiangting Liu, Yuan Fang, Enyu Guo, Huijun Kang, Zhigang Hao, Jiehua Li, Guohao Du, Lei Liu, Zongning Chen*, Tongmin Wang*. Multiscale microstructures, mechanical properties and electrical conductivity of in-situ dual-size TiB2 particles reinforced 6201 aluminum matrix composites. Journal of Materials Research and Technology, 2023, 23: 5459-5473.

2022年:

[1] Mengtian Lv, Jinlin Li, Jiudong Sun, Zhenhua Wang, Qing Wang*, Chuang Dong. Design of cuboidal γ/γ′ coherent microstructure and its stability in low-density Co-Ni-Al-Mo-Cr-Ti/ Nb/Ta superalloys. Acta Phys. Sin., 2022, 71(11): 118102.

[2] Jiudong Sun, Jinlin Li, Hongyao Yu, Zhenhua Wang, Qing Wang*, Dong Chuang. Microstructural stability of low-cost Ni-base superalloys with a high volume fraction of cuboidal γ′ nanoprecipitates.Materials Science & Engineering A, 2022,833.

[3] Zhenhua Wang, Qing Wang*, Ben Niu, Chuang Dong, Hongwei Zhang, Haifeng Zhang, Liaw Peter K.. Coherent precipitation and stability of cuboidal B2 nanoparticles in a ferritic Fe–Cr–Ni–Al superalloy. Materials Research Letters, 2021, 9(11): 458-466.

[4] Zhen Zhang, Junhao Yuan, Zhen Li, Qing Wang*, Yufeng Liu, Zhongwei Zhang*. First-principles study on the surface oxidation behavior of ternary M6C6 (M6 = Zr5Ti, Zr5Ta, Hf5Ti, Hf5Ta) carbides. Computational Materials Science, 2022, 210.

[5] Yilun Xu, Jingwei Xian, Stoyan Stoyanov, Chris Bailey, Richard J. Coyle, Christopher M. Gourlay, Fionn P.E. Dunne. A Multi-Scale Approach to Microstructure-Sensitive Thermal Fatigue in Solder Joints. International Journal of Plasticity.2022, 155 : 103308.

[6] Ben Niu, Zhenhua Wang, Sen Ge, Qing Wang*, Chuang Dong, Ruiqian Zhang*,Liu Huiqun, Liaw Peter K.. Precipitation behavior of second phases and mechanical property of Fe-Cr-Al–Mo–Nb/Ta/Zr alloy during aging at 1073 K. Journal of Materials Research and Technology, 2022, 19, 4571-4582.

[7] Sen Ge, Ben Niu, Zhenhua Wang, Qianfu Pan*, Chaohong Liu, Qing Wang*. Microstructural Stability and Mechanical Property of a Medium-Si 12% Cr Reduced Activation Ferritic/Martensitic Steel at High Temperatures. Journal of Materials Engineering and Performance, 2022, 31(7): 5697-5705.

[8] Ben Niu, Zhenhua Wang, Qing Wang*, Sen Ge, Chuang Dong, Ruiqian Zhang*, Huiqun Liu, Liaw Peter K.. Effect of Zr addition on the stability of precipitated Laves phase and mechanical properties of Fe–Cr–Al-based alloys at high temperatures. Progress in Natural Science: Materials International, 2022, 32(1) : 114-127.

[9] Yihong Wu, Boxiao Liu, Huijun Kang, Enyu Guo, Jiehua Li, Guohao Du, Zongning Chen*, Tongmin Wang**. Ultrasound-assisted Dispersion of TiB2 Nanoparticles in 7075 Matrix Hybrid Composites. Materials Science and Engineering A, 2022, 840: 142958.

[10] Linwei Li, Zhenhao Han, Minqiang Gao, Shaowei Li, Huihui Wang, Huijun Kang, Enyu Guo, Zongning Chen*, and Tongmin Wang**. Microstructures, Mechanical Properties, and Aging Behavior of Hybrid-Sized TiB2 Particulate-Reinforced 2219 Aluminum Matrix Composites. Materials Science and Engineering: A, 2022, 829: 142180.

[11] Kai Zhao, Mengmeng Liu, Huijun Kang, Enyu Guo, Jiehua Li, Lei Liu, Zongning Chen*, Tongmin Wang*. Formation mechanism of TiB2 nanoparticles and development of TiB2p/6201 nanocomposites as a neoteric conducting material. Journal of Alloys and Compounds, 2022, 916: 165461.

2021年:

[1] Junhao Yuan,Qing Wang*,Zhen Li* , Chuang Dong,Pengcheng Zhang, Xiangdong Ding*. Domain-knowledge-oriented data pre-processing and machine learning of corrosion-resistant γ-U alloys with a small database. Computational Materials Science, 2021, 194, 110472.

[2] Bingyang Gao, Xiangrui Meng, Enyu Guo, Hui Liang, Zhiqiang Cao*, Tongmin Wang. Effects of Ni on the nucleation and growth behavior of Cu6Sn5 in Sn-8.5Cu alloy: An in situ observation. Journal of Alloys and Compounds, 2021,862: 158603.

[3] Bingyang Gao, Xiangrui Meng, Zhiqiang Cao*, Feng Mao. Bidirectional pulsed current effect on the precipitation behavior of Cu6Sn5: An in situ observation. Materials Today Communications, 2021,29: 102825.

[4] Mingkang Wang, Junhao Yuan, Yufeng Liu, Qing Wang*, Chuang Dong, Zhongwei Zhang. Effect of Ti on β Structural Stability and Mechanical Properties of Zr-Nb Binary Alloys. Acta Metallurgica Sinica, 2021, 57(1): 95-102.

[5] Shuqi Zhang, Dandan Dong, Qing Wang*, Chuang Dong*, Rui Yang. High-Temperature Oxidation Resistance of Alumina-Forming Austenitic Stainless Steels Optimized by Refractory Metal Alloying. Metals, 2021, 11(2): 213-213.

[6] Baoxian Su, Liangshun Luo*, Binbin Wang, Yanqing Su*, Liang Wang, Robert O. Ritchie, Enyu Guo, Ting Li, Huimin Yang, Haiguang Huang, Jingjie Guo, Hengzhi Fu. Annealed microstructure dependent corrosion behavior of the Ti-6Al-3Nb-2Zr-1Mo alloy. Journal of Materials Science and Technology, 2021, 62: 234-248.

2020年:

[1] Chen Chen, Qing Wang*, Chuang Dong*, Yu Zhang, Honggang Dong. Composition rules of Ni-base single crystal superalloys and its influence on creep properties via a cluster formula approach. Scientific reports, 2020, 10(1): 21621.

[2] Fei Chen, Binbin Wang, Zhiqiang Cao*. Microstructure and Wear Behavior of In Situ ZA27/TiB2 Composites. Metals, 2020, 10(12): 1663.

[3] Jingwei Xian，Sergey A. Belyakov，Christopher M. Gourlay. Time-Lapse Imaging of Ag3Sn Thermal Coarsening in Sn-3Ag-0.5Cu Solder Joints. Journal of Electronic Materials, 2020, 50: 786-795.

[4] Ben Niu,Zhenhua Wang,Qing Wang*,Qianfu Pan,Chuang Dong,Ruiqian Zhang,Huiqun* Liu,Peter K. Liaw,Wei Xu.Dual-phase synergetic precipitation in Nb/Ta/Zr co-modified Fe-Cr-Al-Mo alloy. Intermetallics, 2020, 124

[5] Yang Lu,Qing Wang*,Donghui Wen,Chuang Dong,Ruiqian Zhang,Peter K. Liaw.Microstructural stability of Ta minor-alloying HR3C stainless steel at 973 K .Materials Chemistry and Physics, 2020, 239122306-122306.

[6] Kai Zhao, Huijun Kang, Yihong Wu, Mengmeng Liu, Enyu Guo, Zongning Chen*, Tongmin Wang*. Manipulating the particle distribution of in situ TiB2p/Al composites via acoustic vibration and cooling rate. Materials Letters, 2020, 262: 127063.

[7] Fei Yang,Zhen Li*,Qing Wang*,Beibei Jiang,Biaojie Yan,Pengcheng Zhang,Wei Xu,Chuang Dong,Peter K. Liaw.Cluster-formula-embedded machine learning for design of multicomponent β-Ti alloys with low Young’s modulus.npj Computational Materials,2020,6(1):231-236.

2019年:

[1] M. Wasim Anjum,Donghui Wen,Qing Wang*,Ruiqian Zhang8,Chuang Dong,Peter K. Liaw.Influence of Ta/Zr minor-alloying on the high-temperature microstructural stability of cladding Fe-Cr-Al ferritic stainless steels. Journal of Nuclear Materials, 2019, 52219-31.

[2] Beibei Jiang, Donghui Wen, Qing Wang*, Jinda Che, Chuang Dong, Peter K.Liaw, Fen Xu, Lixian Sun.Design of near-α Ti alloys via a cluster formula approach and their high-temperature oxidation resistance.Journal of Materials Science & Technology,2019,35(06): 1008-1016.

[3] Beibei Jiang, Qing Wang*,Chuang Dong, Peter K. Liaw. Exploration of phase structure evolution induced by alloying elements in Ti alloys via a chemical-short-range-order cluster model. Scientific Reports,2019,9(1): 1-11.

2018年:

[1] Zhaolong Ma, Jingwei Xian, Sergey A. Belyakov, Christopher M. Gourlay. Nucleation and Twinning in Tin Droplet Solidification on Single Crystal Intermetallic Compounds. Acta materialia, 2018, 150: 281-294.

[2] Jingwei Xian, Mohd Arif Anuar Mohd Salleh, Guang Zeng, Sergey A. Belyakov, Hideyuki Yasuda, Kazuhiro Nogita, and Christopher M. Gourlay. Synchrotron Radiography of Sn-0.7Cu-0.05Ni Solder Solidification. Solid State Phenomena, 2018, 273: 66-71.

[3] Jingwei Xian, Mohd Arif Anuar Mohd Salleh, Sergey A. Belyakov, Techeng Su, Guang Zeng, Kazuhiro Nogita, H. Yasuda, Christopher M. Gourlay. Influence of Ni on the Refinement and Twinning of Primary Cu6Sn5 in Sn-0.7Cu-0.05Ni. Intermetallics, 2018, 102: 34-45.

[4] Fei Chen, Zhiqiang Cao*, Gang Chen, Xizhou Kai, Jili Wu, Yutao Zhao. Synchrotron radiation micro-beam analysis of the effect of strontium on primary silicon in Zn-27Al-3Si alloy. Journal of Alloys and Compounds, 2025, 749: 575-579.

[5] Zhaolong Ma, Jingwei Xian, Sergey A. Belyakov, Christopher M. Gourlay. Nucleation and Twinning in Tin Droplet Solidification on Single Crystal Intermetallic Compounds. Acta materialia, 2018, 150: 281-294.

[6] Jingwei Xian, Mohd Arif Anuar Mohd Salleh, Guang Zeng, Sergey A. Belyakov, Hideyuki Yasuda, Kazuhiro Nogita, and Christopher M. Gourlay. Synchrotron Radiography of Sn-0.7Cu-0.05Ni Solder Solidification. Solid State Phenomena, 2018, 273: 66-71.

[7] Jingwei Xian, Mohd Arif Anuar Mohd Salleh, Sergey A. Belyakov, Techeng Su, Guang Zeng, Kazuhiro Nogita, H. Yasuda, Christopher M. Gourlay. Influence of Ni on the Refinement and Twinning of Primary Cu6Sn5 in Sn-0.7Cu-0.05Ni. Intermetallics, 2018, 102: 34-45.

[8] Zhen Li, Dong-hui Wen, Yue Ma, Qing Wang*, Guo-qing Chen, Rui-qian Zhang, Rui Tang, Huan He. Prediction of alloy composition and microhardness by random forest in maraging stainless steels based on a cluster formula.Journal of Iron and Steel Research International, 2018, 25(7): 717-723.

[9] Donghui Wen,Beibei Jiang,Qing Wang*,Fengyun Yu,Xiaona Li,Rui Tang,Ruiqian Zhang*,Guoqing Chen,Chuang Dong.Influences of Mo/Zr minor-alloying on the phase precipitation behavior in modified 310S austenitic stainless steels at high temperatures.Materials & Design, 2017, 12834-46.

[10] Jinda Che, Beibei Jiang, Qing Wang*, Chuang Dong*, Guoqing Chen*, Ruiqian Zhang, Rui Tang, Fen Xu, Lixian Sun. Effects of minor additions of elements into Ti1100 on elevated oxidation-resistant properties. Rare Metal Materials and Engineering, 2018, 47(05): 1471-1477.

2017年：

[1] Jingwei Xian, Zhaolong Ma, Sergey A. Belyakov, Mathieu Ollivier, Christopher M. Gourlay. Nucleation of Tin on the Cu6Sn5 Layer in Electronic Interconnections. Acta Materialia, 2017, 123: 404-415.

[2] Sergey A. Belyakov, Jingwei Xian, Keith W. Sweatman, Takatoshi Nishimura, Tetsuya Akaiwa, Christopher M. Gourlay. Gourlay. Influence of Bismuth on the Solidification of Sn-0.7Cu-0.05Ni-xBi/Cu Joints. Journal of alloys and compounds, 2017, 701: 321-334.

[3] Sergey A. Belyakov, Jingwei Xian, Keith W. Sweatman, Takatoshi Nishimura, Tetsuya Akaiwa, Christopher M. Gourlay. Gourlay. Influence of Bismuth on the Solidification of Sn-0.7Cu-0.05Ni-xBi/Cu Joints. Journal of alloys and compounds, 2017, 701: 321-334.

[4] Jingwei Xian, Sergey A. Belyakov, Mathieu Ollivier, Kazuhiro Nogita, H. Yasuda, Christopher M. Gourlay. Cu6Sn5 Crystal Growth Mechanisms During Solidification of Electronic Interconnections. Acta Materialia, 2017, 126: 540-551.

[5] Jingwei Xian, Zhaolong Ma, Sergey A. Belyakov, Mathieu Ollivier, Christopher M. Gourlay. Nucleation of Tin on the Cu6Sn5 Layer in Electronic Interconnections. Acta Materialia, 2017, 123: 404-415.

[6] Jingwei Xian, Sergey A. Belyakov, Mathieu Ollivier, Kazuhiro Nogita, H. Yasuda, Christopher M. Gourlay. Cu6Sn5 Crystal Growth Mechanisms During Solidification of Electronic Interconnections. Acta Materialia, 2017, 126: 540-551.

[7] Jingwei Xian, Guang Zeng, Sergey A. Belyakov, Qinfen Gu, Kazuhiro Nogita, Christopher M. Gourlay. Anisotropic Thermal Expansion of Ni3Sn4, Ag3Sn, Cu3Sn, Cu6Sn5 and β-Sn. Intermetallics , 2017, 91: 50-64.

[8] Zhenjing Xuan, Feng Mao, Zhiqiang Cao*, Tongming Wang, Longjiang Zou. In situ observation on the solidification of Sn-10Cu hyperperitectic alloy under direct current field by synchrotron microradiography. Journal of Alloys and Compounds. 2017,721:126-133.

[9] Beibei Jiang, Qing Wang*, Xiaona Li, Chuang Dong, Fen Xu, Huan He , Lixian Sun. Structural Stability of the Metastable β-[(Mo0.5Sn0.5)-(Ti13Zr1)]Nb1 Alloy with Low Young's Modulus at Different States. Metallurgical and Materials Transactions A, 2017, 48 (8): 3912-3919.

[10] Beibei Jiang, Qing Wang*, Donghui Wen, Fen Xu, Guoqing Chen, Chuang Dong, Lixian Sun, Peter K. Liaw. Effects of Nb and Zr on structural stabilities of Ti-Mo-Sn-based alloys with low modulus. Materials Science & Engineering A, 2017, 687: 1-7.

[11] Bei-Bei Jiang, Qing Wang*, Chuang Dong. A cluster-formula composition design approach based on the local short-range order in solid solution structure. Acta Phys. Sin., 2017, 66(2): 026102.

[12] Enyu Guo, Sudhanshu S. Singh, Chandrashekara S. Kaira, Xianyu Meng, Yanjin Xu, Liangshun Luo, Mingyue Wang*, Nikhilesh Chawla*. Mechanical properties of microconstituents in Nb-Si-Ti alloy by micropillar compression and nanoindentation. Materials Science and Engineering: A, 2017, 687: 99-106.

2015年:

[1] Fei Chen, Feng Mao, Zhenjing Xuan, Guangyuan Yan, Jingyu Han, Tongmin Wang, Zhiqiang Cao*, Yanan Fu, Tiqiao Xiao. Real time investigation of the grain refinement dynamics in zinc alloy by synchrotron microradiography. Journal of Alloys and Compounds, 2015, 630:60-67.

[2] Feng Chen, Zongning Chen, Feng Mao, Tongmin Wang, Zhiqiang Cao*.TiB2 reinforced aluminum based in situ composites fabricated by stir casting. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2015, 625: 357-368.

[3] Fei Chen, Feng Mao, Zongning Chen, Jingyu Han, Guangyuan Yan, Tongmin Wang, Zhiqiang Cao*. Application of synchrotron radiation X-ray computed tomography to investigate the agglomerating behavior of TiB2 particles in aluminum. Journal of Alloys and Compounds, 2015, 622: 831-836.

[4] Jingwei Xian, Sergey A. Belyakov, Christopher M. Gourlay. Controlling Bulk Cu₆Sn₅ Nucleation in Sn0.7Cu/Cu Joints with Al Micro-Alloying. Journal of Electronic Materials, 2015, 45: 69-78.

[5] Jingwei Xian, Sergey A. Belyakov, Ben Britton, Christopher M. Gourlay. Heterogeneous Nucleation of Cu₆Sn₅ in Sn-Cu-Al Solders. Journal of alloys and compounds, 2014, 619: 345-355

[6] Chang Pang, Qing Wang*, Ruiqian Zhang, Qun Li, Xun Dai, Chuang Dong, Peter K. Liaw. β Zr-Nb-Ti-Mo-Sn alloys with low Young׳s modulus and low magnetic susceptibility optimized via a cluster-plus-glue-atom model. Materials Science & Engineering: A, 2015, 25(04): 368-374.

[7] Qing Wang*,Qun Li, Xiaona Li, Ruiqian Zhang, Xiaoxia Gao, Chuang Dong, Peter K. Liaw. Microstructures and Stability Origins of β-(Ti,Zr)-(Mo,Sn)-Nb Alloys with Low Young’s Modulus. Metallurgical and Materials Transactions A, 2015, 46(9): 3924-3931.

[8] Qing Wang*, Chuang Dong, Peter K. Liaw*. Structural Stabilities of β-Ti Alloys Studied Using a New Mo Equivalent Derived from [β/(α + β)] Phase-Boundary Slopes. Metallurgical and Materials Transactions A, 2015, 46(8): 3440-3447.

2014年：

[1] Enyu Guo, Huxiao Xie, Sansan Shuai, Antony Kirubanandham, Tao Jing, Nikhilesh Chawla*. Mechanical characterization of microconstituents in a cast duplex stainless steel by micropillar compression. Materials Science and Engineering A, 2014, 598: 98-105.

2013年：

[1] Enyu Guo, Mingyue Wang, Tao Jing, Nikhilesh Chawla*. Temperature-dependent mechanical properties of an austenitic-ferritic stainless steel studied by in situ tensile loading in a scanning electron microscope (SEM). Materials Science and Engineering: A, 2013, 580: 159-168.

1992年：

[1] Zhiqiang Cao, Liping Zhang, Zhongming Ren, Junze Jin. Influence of electromagnetic stirring on macrosegregation of cast iron. 金属学报英文版, 1992, 5(10): 311.

[2] Zhiqiang Cao, Zhongming Ren, Liping Zhang, Junze Jin. Separated eutectic in the solidification of FE-C alloy with electromagnetic stirring. Journal of Materials Science Letters, 1992, 11(23): 1579-1581.

2025年:

[1] Yanming Liu, Xuan Yang, Lixin Xuan, Weiwei Men, Xiao Wu, Yuping Duan*. Performance and electromagnetic mechanism of radar- and infrared-compatible stealth materials based on photonic crystals. International Journal of Minerals, Metallurgy and Materials. 2025, 32, 710-717.

[2] Yuan Guo, Yuping Duan*, Shude Gu, Xiaoji Liu, Zeng Fan, Huifang Pang, Lujun Pan*. Carbon Nanocoils‐Assisted Formation of Tunable Pore Graphene Aerogels for Lightweight Broadband Microwave Absorption, Thermal Insulation, and Antifreeze Devices. Small. 2025, 2412270.

[3] Xiaoji Liu, Yuping Duan*, Nan Wu, Guangming Li, Yuan Guo, Jiangyong Liu, Ning Zhu, Qiang Wang, Lin Wang, Zichen Xu, Hao Wei, Guojun Wang, Zhijia Zhang, Songsong Zhang*, Wenjun Zhou, Teng Ma, Tongmin Wang*. Modulating Electromagnetic Genes Through Bi-Phase High-Entropy Engineering Toward Temperature-Stable Ultra-Broadband Megahertz Electromagnetic Wave Absorption. Nano-Micro Letters. 2025, 17, 164.

[4] Zhen Tian, Quanwei Jiang, Keqiang Su, Xiaowei Shi, Jianbo Li, Huijun Kang*, Zongning Chen, Enyu Guo, Tongmin Wang**, Construction of nano-lamellar expressways and multidimensional defects to realize the decoupling of carrier-phonon transport in BiSbSe1.25Te1.75 Inorganic Chemistry Frontiers, 2025, 12(4): 1371-1382

[5] 蒋全伟,田震,李建波,史晓伟,康慧君*,王同敏**,Dy和Nb双掺杂优化CaTiO3材料热电性能.硅酸盐学报,1-6. DOI: 10.14062/j.issn.0454-5648.20240639.

[6] Guangshu Li, Fuyuan Liu, Zhifeng Liu, Erkuo Yang, Huijun Kang*, Zongning Chen, Enyu Guo, Tongmin Wang**, Boosting thermoelectric performance of higher manganese silicide through Hf incorporation. Ceramics International, 2025. DOI: 10.1016/j.ceramint.2025.04.404.

[7] Xiaowei Shi, Quanwei Jiang, Yu Yan, Zhen Tian, Erkuo Yang, Jianbo Zhu, Huijun Kang*, Enyu Guo, Zongning Chen, Fengkai Guo, Rongchun Chen, Tongmin Wang**, Boosting the Thermoelectric Properties of Textured BiSbSe3 via Versatile CuI Compositing. Chemistry of Materials, 2025, DOI: 10.1021/acs.chemmater.5c00195.

[8] Guangshu Li, Huijun Kang*, Zongning Chen, Enyu Guo, Tongmin Wang**, Enhancing thermoelectric performance of higher manganese silicide through Ge doping. Vacuum, 2025, 238: 114299.

[9] Xinghui Wang, Yu Yan, Wen Zhang, Huijun Kang*, Enyu Guo, Zongning Chen, Rongchun Chen*, Tongmin Wang, Enhanced Thermoelectric and Mechanical Properties of ZrNiSn Half-Heusler Compounds by Excess Ag Doping at Ni Sites, Acta Metallurgica Sinica (English Letters), 2025, 38: 763–771.

2024年:

[1] Erkuo Yang, Guangshu Li, Zhirou Zhang, Xiaowei Shi, Yu Yan, Meng Chen, Zhibin Huang, Huijun Kang*, Zongning Chen,Enyu Guo, Tongmin Wang**,,A Cubic CuInTe2-Based Material Modulated by Entropy Engineering Acs Applied Electronic Materials, 2024, 6(11): 8116-23.

[2] Lifeng Jiang, Shuyue Tan, Rongchun Chen, Jingwei Xian, Hongrui Li, Donghu Zhou, Huijun Kang*, Zongning Chen, Enyu Guo, Tongmin Wang**, Janus-like Structure and Resonance Level Actualized Ultralow Lattice Thermal Conductivity and Enhanced ZT ave in Mg3(Sb, Bi)2-Based Zintls Acs Applied Materials & Interfaces, 2024, 16(44): 60197-207.

[3] Erkuo Yang, Lifeng Yu,Guangshu Li, Wen Wang Zhang, Xinghui Rongchun Chen, Huijun Kang*, Zongning Chen,Enyu Guo, Tongmin Wang**, Second Phases and Dislocations to Boost the Thermoelectric Properties of CuInTe2 by Sb Doping at In Site,Chemistry of Materials, 2024, 36(18): 8753-62

[4] Shuyue Tan, Lifeng Jiang, Jingwei Xian, Hongrui Li, Xinchen Li, Huijun Kang*, Enyu Guo, Zongning Chen,Tongmin Wang**,.Enhanced Thermoelectric Performance of ZrCoSb Half-Heusler Compounds by Sn-Bi Codoping. Acs Applied Energy Materials, 2024, 7(18): 8025-34

[5] Xiaowei Shi, Zhen Tian, Quanwei Jiang, Yu Yan, Huijun Kang*, Enyu Guo, Zongning Chen,Tongmin Wang**,. Synergistic optimization of the thermoelectric performance of BiSbSe3 using doping and multi-scale defect engineering [J]. Journal of Materials Chemistry A, 2024, 12(29):

[6] Zhen Tian, Quanwei Jiang, Jianbo Li, Huijun Kang*, Zongning Chen,Enyu Guo, Tongmin Wang**,. Achieving n- and p-type thermoelectric materials with the identical chemical composition BiSbTe 1.5 Se 1.5 by defect structure engineering .Chemical Engineering Journal, 2024, 494

[7] Rongchun Chen, Huijun Kang*, Ruonan Min, Zongning Chen,Enyu Guo, Xiong Yang, Tongmin Wang,. Thermoelectric properties of half-Heusler alloys. International Materials Reviews, 2024, 69(2): 83-106.

[8] 田震,蒋全伟,李建波,于砺锋,康慧君*,王同敏**.热变形协同优化BiSbSe1.50Te1.50材料电热输运.无机材料学报,2024,39(12):1316-1324.

[9] 褚晨悦,高一博,范文新,闫宇,张文,陈荣春,康慧君*,王同敏**.同构合金化对P型ZrCoSb基高熵half-Heusler合金热电性能的影响.铸造技术,2024,45(01):67-72.

[10] Wenxin Fan, Pengfei Yu, Lifeng Jiang, Zhen Tian, Erkuo Yang, Saichao Cao, Huijun Kang*, Enyu Guo, Zongning Chen*, Rongchun Chen, Mingxu Xia, Tongmin Wang*. Unfolding the Mysterious Roles of GeTe/SnTe Compositing within CuInTe2 Thermoelectric Alloy: Short-Range and Local Chemical Orders. Acta Materialia,2024, 281(6): 120363.

[11] Jiangyong Liu, Yuping Duan*, Tuo Zhang, Yanan Liu, Wei Chen, Yupeng Shi, Lingxi Huang and Huifang Pang. Cut-wire metasurface embedded in magnetic mediums for ultra-wideband Polarization-insensitive absorber with environmental adaptability. Journal of Materials Science & Technology. 2024, 178, 162-170.

[12] Hanxiao Jia, Yuping Duan∗, Chenxu Dou, Likun Niu, Naibo Wu, Meng Wang. Thermally-driven contraction asymmetric yolk-shell MnSe@C microsphere with boosted dielectric behaviors and microwave absorption. Journal of Materials Science & Technology. 183 (2024) 223–231.

[13] Jingru Di, Yuping Duan*, Lan Bo, Shude Gu, Huifang Pang, Hanxiao Jia. The Co/CoNi sequential configurations based on transparent basalt substrates toward excellent microwave absorption. Chemical Engineering Journal, 2024, 481, 148207.

[14] Lulu Song, Xiangqian Wang, Yuping Duan*, Yongqiang Wang, Zhenyi Huang, Wenzhen Xia， Designing High-Performance Microwave Absorption Materials through Co-Doping Strategy: Experimental and Theoretical Insights，Materials Research Bulletin, 2024, 112679.

[15] Yupeng Shi, Yuping Duan*, Lingxi Huang, Wei Chen, Jiangyong Liu, Meng Wang. Chiral-assisted geometric phase metasurfaces: Manipulating orbital angular momentum for efficient microwave attenuation. Composites Part B: Engineering. 2024, 283, 111614.

[16] Yupeng Shi, Yuping Duan*, Lingxi Huang, Wei Chen, Jiangyong Liu, Meng Wang, Chenyang Xia. Absorption-diffusion integrated stacked metamaterials by multi-compound strategy for broadband electromagnetic attenuation. Composites Science and Technology. 2024, 255, 110735.

[17] Jiangyong Liu, Yuping Duan*, Wei Chen, Yupeng Shi, Jingru Di, Tuo Zhang, Huifang Pang, Lingxi Huang, Jian Gong, Jiangang Wang. Novel Local-Chiral Metamaterial: Effective Modulation of Amplitude & Phase for Wideband Polarization-Insensitive Absorption. ACS Applied Materials & Interfaces. 2024, 16(6), 8119-8129.

[18] Chenxu Dou, Yuping Duan∗, Hanxiao Jia, Xiaoji Liu, Likun Niu. Novel Fe1.1Co1.1(CrAlx)1.8Gd0.1 high-entropy alloy absorber: Noticeable ferromagnetic transformation and Enhanced Magnetic loss. Journal of Alloys and Compounds. 2024, 1005, 175981.

[19] Yuan Guo, Yuping Duan*, Xiaoji Liu, Jie Tian, Ningxuan Wen, Zeng Fan, Lujun Pan*. Construction of rGO/MOF-derived CNTs aerogel with multiple losses for multi-functional efficient electromagnetic wave absorber. Carbon. 2024,230, 119591.

[20] Yuping Duan*, Meng Wang, Hanxiao Jia, Shude Gu, Yupeng Shi. A Minkowski-like fractal composite metamaterial for S-C band radar and infrared compatible stealth. Composites Communications. 2024, 49, 101973.

[22] Yuping Duan*, Chenyang Xia, Wei Chen, Hanxiao Jia, Meng Wang and Yupeng Shi. A bio-inspired broadband absorption metamaterial: Driven by dual-structure synergistically induced current vortices. Journal of Materials Science & Technology, 2025, 206, 193-201.

[23] Hanxiao Jia, Yuping Duan*, Naibo Wu, Shude Gu, Meng Wang, Jingru Di, Jiabin Ma. Local charge regulation via selenium vacancies engineering in dielectric cobalt diselenide with enhanced microwave absorption. Chemical Engineering Journal. 2024, 496, 153783.

[24] Hanxiao Jia, Yuping Duan*, Wei Chen, Jingru Di, Meng Wang. Multi-dimensional Nano-microstructures Design of MOF-derived CoSe2@N-C Composites Toward Excellent Microwave Absorption. Materials Today Physics. 2024, 43, 101415.

[25] Yuping Duan*, Shude Gu, Ben Ma, Meng Wang, Wei Chen, Yupeng Shi, Jiangyong Liu. Metamaterial Absorbers with Archimedean Tiling Structures: Toward Response and Absorption of Multiband Electromagnetic Waves. ACS Applied Materials & Interfaces. 2024, 16(16), 21255–21263.

[26] Yuping Duan*, Likun Niu, Zerui Li, Xiaoji Liu, Huifang Pang, Jiabin Ma, Jian Gong, Jiangang Wang. Carbon vacancies regulation strategy for boosting the high-temperature microwave absorption performance of (Co0.2Mo0.2V0.2Nb0.2Ta0.2)Cx high-entropy carbides. Journal of Materials Chemistry C. 2024,12, 8794-8803.

[27] Yuping Duan*, Jiaxin Sun, Yupeng Shi, Jiangyong Liu, Hanxiao Jia, Yang Yang. Bioinspired Polarization-Response Structure with Broadband Absorption based on a Multifrequency Point Response Mechanism. Advanced Materials Technologies. 2024, 9(18), 2400081.

[28] Yuping Duan*, Meiqi Li, Yuan Guo, Ning Zhu, Huifang Pang, Chenxu Dou. Improving electromagnetic wave absorption performance by adjusting the proportion of brittle BCC phase in FeCoNiCr0.4Mnx high-entropy alloys. Materials Today Physics. 2024, 49, 101596.

2023年:

[1] Yuping Duan*, Yuanyuan Fu, Yupeng Shi, Huifang Pang, Lingxi Huang. T-ZnOw/FCIPs with vertical-orientated structure achieving temperature-stable broadband microwave absorption. Applied Surface Science. 2023, 613, 155988.

[2] Lingxi Huang, Yuping Duan*, Yupeng Shi, Huifang Pang, Bioinspired Multiple-Degrees-of-Freedom Responsive Metasurface by High-Entropy-Alloy Ribbons with Hierarchical Nanostructures for Electromagnetic Wave Absorption. Journal of Colloid and Interface Science. 2023, 636, 1-10.

[3] Wei Chen, Yuping Duan*, Jiangyong Liu, Tuo Zhang, Yupeng Shi, Xinran Ma, Lingxi Huang, Huifang Pang. Coded meta-materials drivened by impedance-mismatch: Ultra-broadband anti-reflection and scattering field manipulation. Composites Part B. 2023, 265, 110962.

[4] Xiaoji Liu, Yuping Duan*, Yuan Guo, Zerui Li, Jiabin Ma, Jingru Di, Tongmin Wang*. In situ construction of complex spinel ferrimagnet in multi-elemental alloy for modulating natural resonance and highly efficient electromagnetic absorption. Chemical Engineering Journal. 2023, 462, 142200.

[5] Yuping Duan*, Meng Wang, Wei Chen, Lingxi Huang, Hanxiao Jia, Jiangyong Liu, Huifang Pang, Yupeng Shi, Jian Gong, Jiangang Wang. Layered metamaterials with Sierpinski triangular fractal metasurface: Compatible stealth for S-band radar and infrared. Materials Today Physics. 2023, 38, 101210.

[6] Hanxiao Jia, Yuping Duan*, Meng Wang, Wei Chen, Chenxu Dou, Jingru Di. 1D CNTs assembled MOF-derived hollow CoSe2@N-doped carbon constructed high-efficiency electromagnetic wave absorbers. Carbon, 2023, 215, 118400.

[7] Yuping Duan*, Wei Chen, Huifang Pang*, Xingyang Sun, Meng Wang, Jian Gong, and Jiangang Wang. Radar Infrared-Compatible Camouflage Performance of High-Entropy Alloy Coating Enhanced by Double-Layer Hexagonal Metasurface. Advanced Engineering Materials. 2023, 25, 2201861.

[8] Yuan Guo, Yuping Duan*, Xiaoji Liu, Hao Zhang, Tingkang Yuan, Ningxuan Wen, Chengwei Li, Huifang Pang, Zeng Fan, Lujun Pan*, Boosting Conductive Loss and Magnetic Coupling Based on “Size Modulation Engineering” toward Lower-Frequency Microwave Absorption, Small. 2024, 20, 2308809.

[9] Yuping Duan*, Ben Ma, Lingxi Huang, Xinran Ma, Meng Wang. Moth-Eye-Inspired Gradient Impedance Microwave Absorption Materials with Multiband Compatible Stealth Characteristic. Advanced Materials Technologies. 2023, 14, 2202172.

[10] Jianbo Li, Quanwei Jiang, Zhen Tian, Huijun Kang*, Zongning Chen,Enyu Guo, Cao, Zhiqiang** Tongmin Wang**,*. Controlling Precipitation and Dopant Effects To Achieve Promising Thermoelectric Performance in CaTiO3. Acs Applied Energy Materials, 2023, 6(15): 8053-62.

[11] Rongchun Chen, Yu Yan, Wen Zhang, Fuyuan Liu, Huijun Kang*, Enyu Guo, Zongning Chen,Tongmin Wang**,. Enhanced Thermoelectric Properties of Zr0.85-xHfxNb0.15-yTayCoSb Medium-Entropy Alloys: Tradeoff between "What to Alloy" and "How Much to Alloy". Chemistry of Materials, 2023, 35(5): 2202-12.

[12] Jianbo Li, Yanxia Wang, Xue Jiang, Zhen Tian, Huijun Kang*, Zongning Chen,Enyu Guo, Zhiqiang Cao**, Tongmin Wang**,*. Emerging homogeneous superlattices in CaTiO3 bulk thermoelectric materials. Materials Horizons, 2023, 10(2):

[13] 李建波,田震,蒋全伟,于砺锋,康慧君*,曹志强,,王同敏,.不同元素掺杂对CaTiO3微观结构及热电性能的影响.无机材料学报,2023,38(12):1396-1407.

[14] Erkuo Yang, Quanwei Jiang, Guangshu Li, Zhen Tian, Jianbo Li, Huijun Kang*, Zongning Chen, Enyu Guo, Jun Wang, Tongmin Wang*. Enhancing Thermoelectric Performance of CuInTe2 via Trace Ag Doping at Indium Sites, ACS Applied Materials and Interfaces, 2023, 15: 49370-49378.

[15] Xinghao Cao, Jianbo Li, Jiajun Zhang, Miyang Li, Huijun Kang*, Enyu Guo, Zongning Chen, Rongchun Chen, Jun Wang, Tongmin Wang*. Enhancing the Thermoelectric and Mechanical Properties of CuNiMn Alloys by Introducing Si Impurity Atoms and Twins. ACS Applied Electronic Materials, 2023, 5: 5668-5676.

[16] Mingyang Li, Ruonan Min, Rongchun Chen, Xianghao Cao, Huijun Kang*, Enyu Guo, Zongning Chen, Xiong Yang, Tongmin Wang*. Effect of Composition Regulation on Thermoelectric Properties of Fe3Al2Si3-Based Compounds. Journal of Electronic Materials, 2023, 53: 171-176.

[17] Rongchun Chen, Yu Yan, Guangshu Li, Ruonan Min, Huijun Kang*, Enyu Guo, Zongning Chen, Xiong Yang, Tongmin Wang*. Maximizing the scattering of multiwavelength phonons in novel biphasic high-entropy ZrCoSb-based half-Heusler alloys. Journal of Materiomics, 2023, 10(1): 45-56.

[18] Ruonan Min, Yinlu Gao, Xue Jiang, Xiong Yang*, Linwei Lin, Huijun Kang*, Enyu Guo, Zongning Chen, Tongmin Wang*. Enhancement in the Thermoelectric Performance of ZrNiSn-based Alloys Through Extra Zr-rich Nanoprecipitates with Superstructures. Chemical Engineering Journal, 2023, 464: 142531.

[19] Rongchun Chen, Yanxia Wang, Lifeng Jiang, Ruonan Min, Huijun Kang*, Zongning Chen, Enyu Guo, Xiong Yang, Xue Jiang**, Tongmin Wang***. Enhancing thermoelectric properties of MCoSb-based alloys by entropy-driven energy-filtering effects and band engineering. Materials Today Physics, 2023, 30: 100957.

[20] Rongchun Chen, Quanwei Jiang, Lifeng Jiang, Ruonan Min, Huijun Kang*, Zongning Chen, Enyu Guo, Xiong Yang, Xue Jiang, Tongmin Wang*. Entropy-driven multiscale defects enhance the thermoelectric properties of ZrCoSb-based half-Heusler alloys. Chemical Engineering Journal, 2023, 455: 140676.

[21] Jianbo Li, Yanxia Wang, Xue Jiang, Zhen Tian, Huijun Kang*, Zongning Chen, Enyu Guo, Zhiqiang Cao, Tongmin Wang*. Emerging Homogeneous Superlattices in CaTiO3 Bulk Thermoelectric. Materials. Mater Horiz., 2023, 10: 454-465.

2022年:

[1] Jingru Di, Yuping Duan*, Huifang Pang, Xinran Ma, Jia Liu. Sintering-regulated two-dimensional plate@shell basalt@NiO heterostructure for enhanced microwave absorption，Applied Surface Science, 2022, 574：151590.

[2] Jia Liu, Yuping Duan*, Lingxi Huang, Huifang Pang. Electromagnetic Response Characteristics of Lightweight Hierarchical 2D Nitrogen-doped Graphene@Amorphous Carbon, Applied Surface Science, 2022, 577：151974.

[3] Lingxi Huang, Yuping Duan*, Xinran Ma, Yuansong Zeng, Guojia Ma, Huifang Pang, Tuo Zhang. Broadband Microwave Absorption and Adaptable Multifunctionality of Carbonaceous Chiral Metamaterials under Deep Subwavelength Thickness. ACS Applied Electronic Materials, 2022, 4(1): 177-187.

[4] Lingxi Huang, Yuping Duan*, Yupeng Shi, Xinran Ma, Huifang Pang, Qingwen Zeng, Renchao Che*. Chiral asymmetric polarizations generated by bioinspired helical carbon fibers to induce broadband microwave absorption and multi-spectral photonic manipulation. Advanced Optical Materials, 2022, 10(11): 2200249.

[5] Xinran Ma, Yuping Duan*, Lingxi Huang, Hao Lei, Xuan Yang. Quasiperiodic metamaterials with broadband absorption: Tailoring electromagnetic wave by Penrose tiling. Composites Part B: Engineering. 2022, 233, 109659.

[6] Xinran Ma, Yuping Duan*, Lingxi Huang, Ben Ma, Hao Lei. Multicomponent induced localized coupling in Penrose tiling for electromagnetic wave absorption and multiband compatibility. Journal of Materials Science & Technology. 2022, 130, 86-92.

[7] Xiaoji Liu, Yuping Duan*, Zerui Li, Huifang Pang, Lingxi Huang, Xuan Yang, Yupeng Shi, Tongmin Wang,* and Xingjun Lv. FeCoNiCr0.4CuX High-Entropy Alloys with Strong Intergranular Magnetic Coupling for Stable Megahertz Electromagnetic Absorption in a Wide Temperature Spectrum. ACS Applied Materials & Interfaces. 2022, 14, 7012−7021.

[8] Xiaoji Liu, Yuping Duan*, Huifang Pang, Zerui Li, Xingyang Sun, Tongmin Wang*. Microstructure Design of High-Entropy Alloys Through a Multistage Mechanical Alloying Strategy for Temperature-Stable Megahertz Electromagnetic Absorption. Nano-Micro Letters. 2022, 14, 142.

[9] Xuan Yang, Yuping Duan*, Shuqing Li, Lingxi Huang, Huifang Pang, Ben Ma, Tongmin Wang. Constructing three-dimensional reticulated carbonyl iron/carbon foam composites to achieve temperature-stable broadband microwave absorption performance. Carbon. 2022, 188, 376-384.

[10] Xuan Yang, Yuping Duan*, Shuqing Li, Huifang Pang, Lingxi Huang, Yuanyuan Fu, Tongmin Wang. Bio-inspired microwave modulator for high-temperature electromagnetic protection, infrared stealth and operating temperature monitoring. Nano-Micro Letters. 2022, 14, 28-39.

[11] Jiangyong Liu, Yuping Duan*, Tuo Zhang, Lingxi Huang, Huifang Pang. Dual-polarized and real-time reconfigurable metasurface absorber with infrared-coded remote-control system. Nano Research. 2022, 15, 7498-7505.

[12] Yuping Duan*, Xingyang Sun, Zerui Li, Guojia Ma, Qingtao Yu, Guoke Wei, Lingxi Huang, Ximeng Wang, Huifang Pang, Xiaoji Liu. High Frequency Magnetic Behavior of FeCoNiMnxAl1-x High-entropy Alloys Regulated by Ferromagnetic Transformation. Journal of Alloys and Compounds. 2022, 900, 163428.

[13] Tuo Zhang, Yuping Duan*, Jiangyong Liu, Lingxi Huang, Huifang Pang. Tailoring the resonances on Fibonacci spiral fractal metasurface for miniaturized multi-band microwave applications. Optics Communications. 2022, 518, 128353.

[14] Tuo Zhang, Yuping Duan*, Lingxi Huang, Huifang Pang, Jiangyong Liu, Xinran Ma, Yupeng Shi, Hao Lei. Huygens’ Metasurface Based on Induced Magnetism: Enhance the Microwave Absorption Performance of Magnetic Coating. Advanced Materials Interfaces. 2022, 9, 12, 2102559.

[15] Tuo Zhang, Yuping Duan*, Jiangyong Liu, Huifang Pang, Lingxi Huang, Xinran Ma, Yupeng Shi, Ben Ma. Polarization insensitive hierarchical metamaterial for broadband microwave absorption with multi-scale optimization and integrated design. Composites Science and Technology. 2022, 228, 109643.

[16] Yupeng Shi, Yuping Duan*, Lingxi Huang, Huifang Pang, Xinran Ma, Xiaoji Liu, Zerui Li. Bio-inspired Hierarchical Chiral Metamaterials: Near-field Coupling and Decoupling Effects Modulating Microwave-stealth Properties. Advanced Optical Materials. 2022, 2200951.

[17] Lulu Song; Yuping Duan*; Yulong Cui; Zhenyi Huang*; Fe-Doped MnO2 Nanostructures for Attenuation−Impedance Balance-Boosted Microwave Absorption, ACS Applied Nano Materials, 2022, 5(2): 2738-2747.

[18] Yuping Duan*, Zerui Li, Xiaoji Liu, Huifang Pang, Lingxi Huang, Xingyang Sun, Yupeng Shi. Optimized microwave absorption properties of FeCoCrAlGdx high-entropy alloys by inhibiting nanograin coarsening. Journal of Alloys and Compounds. 2022, 921, 166088.

[19] Ziyu Wang, Huifang Pang, Hao Lei, Meng Wang, Yuping Duan*. Double-Layer Structural Compatible Protective Material with Excellent Microwave Absorption and Heat Shielding Performance. Advanced Materials Interfaces. 2022, 9, 2201986.

[20] Tuo Zhang, Yuping Duan*, Jiangyong Liu, Hao Lei, Jingxuan Sun, Huifang Pang, Lingxi Huang. Asymmetric Electric Field Distribution Enhanced Hierarchical Metamaterials for Radar-Infrared Compatible Camouflage. Journal of Materials Science & Technology. 2022, 146, 10-18.

[21] Lingxi Huang, Yuping Duan*, Yupeng Shi, Huifang Pang, Qingwen Zeng, Renchao Che*, Novel Broadband Electromagnetic-Wave Absorption Metasurfaces Composed of C-doped FeCoNiSiAl High-Entropy-Alloy Ribbons with Hierarchical Nanostructures. Composites-Part B: Engineering, 2022, 244, 110182.

[22] Jingru Di, Yuping Duan*, Huifang Pang, Hanxiao Jia, Xiaoji Liu. Two-Dimensional Basalt/Ni Microflakes with Uniform and Compact Nanolayers for Optimized Microwave Absorption Performance. ACS Applied Materials & Interfaces. 2022, 51545-51554.

[23] 高敏敏, 庞慧芳, 段玉平*. 球磨时间对FeCoNiMn0.5Al0.2合金吸波性能的影响机制. 热加工工艺.2022, 51(4): 37-41.

[24] 程成,李建波,田震,王鹏将,康慧君*,王同敏.In2O3/InNbO4复合材料的热电性能研究.无机材料学报,2022,37(07):724-730.

[25] 王鹏将,康慧君*,杨雄,刘颖,程成,王同敏.熵调控抑制ZrNiSn基half-Heusler热电材料的晶格热导率.无机材料学报,2022,37(07):717-723.

[26] Rongchun Chen, Huijun Kang*, Ruonan Min, Zongning Chen, Enyu Guo, Xiong Yang, Zhen Tian, Tongmin Wang*. Entropy engineering induced low thermal conductivity in medium-entropy (Zr, Ti, Hf) CoSb triple half-Heusler compounds. Materialia, 2022, 23: 101453.

[27] Ruonan Min, Yanxia Wang, Xue Jiang, Rongchun Chen, Huijun Kang*, Enyu Guo, Zongning Chen, Xiong Yang, Tongmin Wang*. Significantly Improved Thermoelectric Properties of Nb-doped ZrNiSn Half-Heusler compounds. Chemical Engineering Journal, 2022, 449: 137898.

[28] Xiong Yang, Yanxia Wang, Ruonan Min, Zongning Chen, Enyu Guo, Huijun Kang*, Linwei Li, Xue Jiang*, Tongmin Wang*. Enhancement in Thermoelectric Properties of ZrNiSn-based Alloys by Ta Doping and Hf Substitution. Acta Materialia, 2022, 233: 117976.

[29] Jianbo Li, Yanxia Wang, Xiong Yang, Huijun Kang*, Zhiqiang Cao*, Xuejian Wang, Zongning Chen, Enyu Guo, Tongmin Wang*. Processing bulk insulating CaTiO3 into a high-performance thermoelectric material. Chemical Engineering Journal, 2022, 428: 131121.

2021年:

[1] Bin Zhang, Yuping Duan,* Haifeng Zhang, Shuo Huang, Guojia Ma, Tongmin Wang*, Xinglong Dong, Nan Jia. Magnetic transformation of Mn from anti-ferromagnetism to ferromagnetism in FeCoNiZMnx (Z = Si, Al, Sn, Ge) high entropy alloys. Journal of Materials science & Technology, 2021, 68, 124-131.

[2] Lingxi Huang , Yuping Duan*, Jia Liu , Yuansong Zeng, Guojia Ma, Huifang Pang, Weiping Zhang. Bionic Composite Metamaterials for Harvesting of Microwave and Integration of Multifunctionality, Composites Science & Technology. 2021, 204, 108640.

[3] Yuping Duan*, Huifang Pang, Xin Wen, Xuefeng Zhang, Tongmin Wang*, Microwave absorption performance of FeCoNiAlCr0.9 alloy powders by adjusting the amount of process control agent. Journal of Materials science & Technology.2021, 77:209-216.

[4] Huifang Pang, Yuping Duan*, Xuhao Dai, Lingxi Huang, Xuan Yang, Tuo Zhang, Xiaoji Liu. The electromagnetic response of composition-regulated honeycomb structural materials used for broadband microwave absorption. Journal of Materials Science & Technology. 2021, 88: 203-214.

[5] Xiaoji Liu, Yuping Duan*, Xuan Yang, Lingxi Huang, Minmin Gao, Tongmin Wang*, Enhancement of magnetic properties in FeCoNiCr0.4CuX high entropy alloys through the cocktail effect for megahertz electromagnetic wave absorption, Journal of Alloys and Compounds.2021, 872:159602

[6] Huan Zhang, Huifang Pang, Yuping Duan*, Weiping Zhang, Tongmin Wang*, Xuefeng Zhang, Facile morphology controllable synthesis of zinc oxide decorated carbon nanotubes with enhanced microwave absorption, Journal of Materials Science: Materials in Electronics. 2021.

[7] Yuping Duan*, Minmin Gao, Huifang Pang, Tongmin Wang, FeCoNiMnAl high-entropy alloy: Improving electromagnetic wave absorption properties, Journal of Materials Research. 2021.

[8] Yuping Duan*, Huifang Pang, Xin Wen, Xuefeng Zhang, Tongmin Wang. Microwave absorption performance of FeCoNiAlCr0.9 alloy powders by adjusting the amount of process control agent. Journal of Materials Science & Technology 2021, 77, 209-216.

[9] Huifang Pang, Yuping Duan*, Lingxi Huang, Lulu Song, Jia Liu, Tuo Zhang, Xuan Yang, Jiangyong Liu, Xinran Ma, Jingru Di, Xiaoji Liu. Research advances in composition, structure and mechanisms of microwave absorbing materials. Composites Part B: Engineering. 2021, 224, 109173.

[10] Yuping Duan*, Huifang Pang, Huan Zhang. Structure and composition design on ternary CNT@ZnFe2O4@ZnO composite utilized as enhanced microwave absorbing materials. Diamond and Related Materials. 2021，120：108701.

[11] 刘佳，段玉平，庞慧芳，黄灵玺. 对负离子对氧化石墨烯/聚苯胺电磁性能的影响. 精细化工. 2021，38(9).

[12] Xiong Yang, Daquan Liu, Jianbo Li, Ruonan Min, Huijun Kang*, Li Linwei, Zongning Chen, Enyu Guo, Tongmin Wang*. Top-down method to fabricate TiNi1+xSn half-Heusler alloy with high thermoelectric performance. Journal of Materials Science and Technology, 2021, 87: 39-45.

[13] Hongwei Yao, Junwei Miao, Yongmiao Liu, Enyu Guo*, He Huang, Yiping Lu*, Tongmin Wang, Tingju Li. Effect of Ti and Nb Contents on Microstructure and Mechanical Properties of HfZrVTaMoWTixNby Refractory High-Entropy Alloys. Advanced Engineering Materials, 2021, 23: 2100225.

2020年:

[1] Yuping Duan*, Xin Wen, Bin Zhang, Guojia Ma, Tongmin Wang*. Optimizing the electromagnetic properties of the FeCoNiAlCrx high entropy alloy powders by composition adjustment and annealing treatment. Journal of Magnetism and Magnetic Materials 2020, 497, 165947.

[2] Lulu Song, Yuping Duan*, Jia Liu, Huifang Pang*. Transformation between nanosheets and nanowires structure in MnO2 upon providing Co2+ ions and applications for microwave absorption. Nano Research. 2020,13, 95.

[3] Bin Zhang, Yuping Duan*, Xuan Yang, Guojia Ma, Tongmin Wang*, Xinglong Dong, Haifeng Zhang, Yuansong Zeng. Tunning microwave absorbing properties based on FeCoNiSi0.4Al0.4 with dual-phase nano-crystal and nano-amorphous microstructure. Intermetallics 2020, 117, 106678.

[4] Xuan Yang, Yuping Duan*, Yuansong Zeng, Huifang Pang*, Guojia Ma, Xuhao Dai. Experimental and Theoretical Evidence for Temperature Driving Electric-Magnetic Complementary Effect in Magnetic Microwave Absorbing Materials. Journal of Materials Chemistry C, 2020, 8, 1583.

[5] Gaihua He, Yuping Duan,* Huifang Pang. Microwave absorbents of crystalline Fe/MnO@C nanocapsules embedded in amorphous carbon. Nano-Micro Letters, 2020,12,57.

[6] Gaihua He, Yuping Duan,* Huifang Pang*, Jianjun Hu. Superior Microwave Absorption Based on ZnO Capped MnO2 Nanostructures. Advanced materials interfaces, 2020, 7, 2000407.

[7] Lingxi Huang, Yuping Duan*, Jia Liu, Yuansong Zeng, Guojia Ma, Huifang Pang, Shaohua Gao, Weiping Zhang*. Bioinspired Gyrotropic Metamaterials with Multifarious Wave Adaptability and Multifunctionality [J]. Advanced Optical Materials, 2020, 8, 2000012.

[8] Lulu Song, Yuping Duan*, Jia Liu, Huifang Pang*. Assembled Ag-doped α-MnO2@δ-MnO2 nanocomposites with minimum lattice mismatch for broadband microwave absorption. Composites Part B: Engineering. 2020, 199, 108318.

[9] Yuping Duan*, Lulu Song, Yulong Cui, Huifang Pang, Xuefeng Zhang, Tongmin Wang*. FeCoNiCuAl high entropy alloys microwave absorbing materials: Exploring the effects of different Cu contents and annealing temperatures on electromagnetic properties. Journal of Alloys and Compounds, 2020, 848, 156491.

[10] Lulu Song, Yuping Duan*, Jia Liu, Huifang Pang*. Insight into electromagnetic absorbing performance of MnO2 from two dimensions: Crystal structure and morphology design. Materials Characterization, 2020, 163, 110300.

[11] Guangyuan Yan, Yizhan Wang, Ziyi Zhang, Yutao Dong, Jingyu Wang, Corey Carlos, Pu Zhang, Zhiqiang Cao*, Yanchao Mao, Xudong Wang. Nanoparticle-Decorated Ultrathin La2O3 Nanosheets as an Efficient Electrocatalysis for Oxygen Evolution Reactions, Nano Micro Lett. 12(1) 2020.

[12] Yingshui Yu, Chenglong Yao, Yubo Zhang, Guangye Xu, Tingju Li, Liwei Zhang, Effect of B4C Particle Size on the Properties of Al/(Al-B4C)/Al Functionally Gradient Material, Powder metallurgy and metal ceramics, 2020, 58: 737-742.

[13] Daquan Liu, Yanxia Wang, Xue Jiang, Huijun Kang*, Xiong Yang, Xiaoying Zhang, Tongmin Wang**,.Ultrahigh electrical conductivities and low lattice thermal conductivities of La, Dy, and Nb Co-doped SrTiO3 thermoelectric materials with complex structures. Journal of Materials Science & Technology. 2020. 52: 172-179.

[14] Xiong Yang, Jiang Zhou, Huijun Kang*, Zongning Chen, Enyu Guo, Daquan Liu, Fenfen Yang, Rengeng Li, Jiang Xue, Tongmin Wang**,. Enhanced Thermoelectric Performance of Zr1-xTaxNiSn Half-Heusler Alloys by Diagonal-Rule Doping. Acs Applied Materials & Interfaces,2020. 12(3): 3773-3783.

[15] Huijun Kang, Xiaoying Zhang, Yanxia Wang, Jianbo Li, Xiong Yang, Daquan Liu, Zerong Yang, Tongmin Wang. Effect of Rare-earth Variable-valence Element Eu doping on Thermoelectric Property of BiCuSeO Study on the thermoelectric properties of variable rare earth element Eu doped with BiCuSeO.Journal of Inorganic Materials.2020.102B:9

[16] Xiong Yang, Zhou Jiang, Jianbo Li, Huijun Kang**, Daquan Liu, Fenfen Yang, Zongning Chen, Enyu Guo, Xue Jiang***, Tongmin Wang*. Identification of the Intrinsic Atomic Disorder in ZrNiSn-based Alloys and Their Effects on Thermoelectric Properties. Nano Energy, 2020, 78: 105372.

[17] Huijun Kang, Xiaoying Zhang, Yanxia Wang, Jianbo Li, Daquan Liu, Zongning Chen, Enyu Guo, Xue Jiang*, Tongmin Wang*. Enhanced thermoelectric performance of variable-valence element Sm-doped BiCuSeO oxyselenides. Materials Research Bulletin, 2020, 126: 110841.

2019年:

[1] Yuping Duan*, Yulong Cui, Zhang Bin, Guojia Ma, Tongmin Wang*. A novel microwave absorber of FeCoNiCuAl high-entropy alloy powders: Adjusting electromagnetic performance by ball milling time and annealing. Journal of Alloys and Compounds, 2019, 773: 194-201.

[2] Gaihua He, Yuping Duan*, Lulu Song, Xuefeng Zhang. Doping strategy to boost electromagnetic property and gigahertz tunable electromagnetic attenuation of hetero-structured Manganese dioxide. Dalton Transactions, 2019, 48:2407.

[3] Bin Zhang, Yuping Duan*, Xin Wen, Guojia Ma, Tongmin Wang*, Xinglong Dong, Haifeng Zhang, Yuansong Zeng. FeCoNiSixAl0.4 high entropy alloy powders with dual-phase microstructure: Improving microwave absorbing properties via controlling phase transition. Journal of Alloys and Compounds, 2019,790:179-188.

[4] Huifang Pang, Rakesh P. Sahu, Yuping Duan*, Ishwar K. Puri. MnFe2O4-coated carbon nanotubes with enhanced microwave absorption: effect of CNT content and hydrothermal reaction time. Diamond & Related Materials, 2019, 96: 31-43.

[5] Gaihua He, Yuping Duan*, Huifang Pang, Jianjun Hu, Xuefeng Zhang. Rational design of mesoporous MnO2 microwave absorber with tunable microwave frequency response. Applied Surface Science, 2019, 490:372-382.

[6] Lulu Song, Yuping Duan*, Gaihua He, Xuefeng Zhang. Enhanced thermal stability and dielectric performance of δ-MnO2 by Ni2+ doping. Journal of Materials Science: Materials in Electronics, 2019, 30(16): 15362-15370.

[7] Lingxi Huang, Yuping Duan*, Xuhao Dai, Yuansong Zeng, Guojia Ma, Yi Liu, Shaohua Gao, Weiping Zhang. Bio-inspired Metamaterials: Multi-bands Electromagnetic Wave Adaptability and Hydrophobic Characteristics. Small, 2019,15(40):1902730.

[8] Lingxi Huang, Yuping Duan,* Xuan Yang, Shaohua Gao, Yuansong Zeng, Guojia Ma, Weiping Zhang. Ultra-flexible Composite Metamaterials with Enhanced and Tunable Microwave Absorption Performance. Composite Structures, 2019, 229: 111469.

[9] Jia Liu, Yuping Duan,* Lulu Song, Jianjun Hu, Yuansong Zeng. Heterogeneous nucleation promoting formation and enhancing microwave absorption properties in hierarchical sandwich-like polyaniline/graphene oxide induced by mechanical agitation. Composites Science and Technology, 2019,182:107780.

2018年:

[1] Xingjun Lv, Yuping Duan *, Guoqing Chen. Electromagnetic wave absorption properties of cement-based composites filled with graphene nano-platelets and hollow glass microspheres. Construction and Building Materials, 2018, 162: 280-285.

[2] Bin Zhang, Yuping Duan *, Yulong Cui, Guojia Ma, Tongming Wang*, Xinglong Dong. Improving electromagnetic properties of FeCoNiSi0.4Al0.4 high entropy alloy powders via their tunable aspect ratio and elemental uniformity. Materials & Design, 2018, 149(5): 173-183.

[3] Bin Zhang, Yuping Duan *, Yulong Cui, Guojia Ma, Tongmin Wang*, Xinglong Dong. A New Mechanism for improving Electromagnetic Properties Based on Tunable Crystallographic Structures of FeCoNiSixAl0.4 High Entropy Alloy Powders. RSC Advances, 2018, 8, 14936 - 14946.

[4] Gaihua He, Yuping Duan*, Lulu Song, Xuefeng Zhang. Tunable dielectric attenuation and electronic conductivity of potassium-ion-doped tunnel-structured manganese oxides. Journal of Applied Physics, 2018, 123(21): 214101.

[5] Huifang Pang, Yuping Duan*, Jia Liu, Bin Zhang. Low-temperature synthesis and microwave absorbing properties of Mn3O4-Graphene Nanocomposite. Journal of Materials Research, 2018, 33(23): 4062-4070.

[6] Huifang Pang, Ahmed M. Abdalla, Rakesh P. Sahu, Yuping Duan*, and Ishwar K. Puri. Low-temperature synthesis of manganese oxide-carbon nanotube enhanced microwave absorbing nanocomposites. Journal of Materials Science, 2018, 53(24): 16288-16302.

[7] Jia Liu, Yuping Duan*, Lulu Song, Xuefeng Zhang. Constructing sandwich-like polyaniline/graphene oxide composites with tunable conjugation length toward enhanced microwave absorption. Organic Electronics, 2018, 63, 175-183.

[8] Yuping Duan*, Yi Liu, Yulong Cui, Guojia Ma, Tongmin Wang*. Graphene to Tune Microwave Absorption Frequencies and Enhance Absorption Properties of Carbonyl Iron/Polyurethane Coating. Progress in Organic Coatings, 2018, 125: 89-98.

[9] Guojia Ma, Yuping Duan*, Yi Liu, Shaohua Gao. Effect of surface modified SiO2 powders on microwave absorbing properties of flaky FeSiAl/PU coatings. Journal of Materials Science: Materials in Electronics, 2018, 29(20): 17405-17415.

[10] Yahong Zhang, Yuping Duan*, Jia Liu, Guojia Ma, and Mingliang Huang*. Wormlike Acid-Doped Polyaniline: Controllable Electrical Properties and Theoretical Investigation. The Journal of Physical Chemistry C, 2018, 122(4): 2032-2040.

[11] Huijun Kang*, Jinling Li, Yinqiao Liu, EnyuGuo, Zongning Chen, Daquan Liu, Guohua Fan, Yuwei Zhang, Xue Jiang, Tongmin Wang**. Optimizing the thermoelectric transport properties of BiCuSeO via doping with the rare-earth variable-valence element Yb. Journal of Materials Chemistry C. 2018. 6(31): 8479-8487.

[12] Daquan Liu, Yuwei Zhang, Huijun Kang*, Jinling Li, Zongning Chen, Tongmin Wang**. Direct preparation of La-doped SrTiO3 thermoelectric materials by mechanical alloying with carbon burial sintering. Journal of the European Ceramic Society. 2018. 38(2): 807-811.

2017年:

[1] Yahong Zhang, Yuping Duan*, Jin Liu. Time-dependent density functional theory study on the excited-state hydrogen-bonding characteristics of polyaniline in aqueous environment. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2017, 1471(15):305-310.

[2] Yahong Zhang, Yuping Duan*, Jin Liu. The Effect of Intermolecular Hydrogen Bonding on the Polyaniline Water Complex. Journal of Cluster Science, 2017, 28(3): 1071-1081.

[3] Junsheng Wu, Yuping Duan*, Qun Xi. Improved Impedance Matching and Microwave Absorption Property of FSA/WV Coating with Discrete Structure. Journal of Materials Science: Materials in Electronics, 2017，28(3): 3075-3082.

[4] Yuping Duan, Wei Liu, Tongmin Wang*. A Discrete Structure: FeSiAl /Carbon Black Composite Absorption Coatings. Materials Research Bulletin, 2017, 88: 41-48.

[5] Yahong Zhang, Yuping Duan*, Jia Liu, Daoyuan Zheng, Mingxing Zhang, Guangjiu Zhao. Influence of the Halogenated Substituent on Charge Transfer Mobility of Aniline Tetramer and Derivatives: Remarkable Anisotropic Mobilities. Journal of Physical Chemistry C, 2017, 121(33): 17633–17640.

[6] Yahong Zhang, Yuping Duan*, Lulu Song, Daoyuan Zheng, Mingxing Zhang, Guangjiu Zhao. Charge-Transfer Mobility and Electrical Conductivity of PANI as Conjugated Organic Semiconductors. Journal of Chemical Physics, 2017, 147(11):114905.

[7] Yuefang Zhang, Jia Liu, Jin Liu, Yahong Zhang, Yuping Duan*. Facile synthesis of hierarchical nannocomposites of aligned polyaniline nanorods on reduced graphene nanosheet for microwave absorbing materials. RSC Advances, 2017, 7: 54031-54038.

[8] Lulu Song, Yuping Duan*, Yahong Zhang, Tongmin Wang*. Promoting defect formation and microwave loss properties in δ-MnO2 via Co doping: A first-principles study. Computational Materials Science, 2017, 138: 288-294.

[9] Baoshuai Han, Xiang Xue*, Yanjin Xu, Zhiyong Zhao, Enyu Guo, Chen Liu, Liangshun Luo, Hongliang Hou**. Preparation of carbon nanotube films with high alignment and elevated density. Carbon, 2017, 122: 496-503.

2016年:

[1] Yuping Duan*, Huifang Pang, Yahong Zhang, Junlei Chen, and Tongmin Wang*. Morphology-controlled synthesis and microwave absorption properties of β-MnO2 microncube with rectangular pyramid. Materials Characterization, 2016, 112: 206-212.

[2] Yuping Duan*, Gaihua He, Wei Liu, Ming Wen. The effect of grain size on microwave electromagnetic properties of Mn4N. Journal of Superconductivity and Novel Magnetism, 2016, 29：1303-1308.

[3] Yuping Duan*, Qun Xi, Wei Liu, and Tongmin Wang*. Broadband superior electromagnetic absorption of a discrete-structure microwave coating. Journal of Magnetism and Magnetic Materials, 2016, 416:155-163.

[4] Yuping Duan*, Jin Liu, Yahong Zhang, Tongmin Wang*. First-principles Calculations of Graphene-Based Polyaniline Nano-hybrids for Insight of Electromagnetic Properties and Electronic Structures. RSC Advances, 2016, 6, 73915–73923.

2015年:

[1] Yuping Duan*, Yahong Zhang, Junlei Chen, Zhuo Liu，Tongmin Wang*. Frequency Response of Microwave Dielectric Based on Tunable Crystallographic Defects of <beta>-MnO2. Materials Chemistry and Physics, 2015, 157:1-7.

[2] Yuping Duan*, Qun Xi, Yahong Zhang, Ming Wen, Tongmin Wang*. The thermal stability and microwave electromagnetic properties of Mn4N. Applied Physics A –Materials Science & Processing, 2015, 120(3):1075-1081.

[3] Shuchao Gu, Yuping Duan*, Peng Duan, Song Wang, Guoping Qiu, Yuzhe Liu. Investigation of the Absorption Properties of the Alloys Fe-Ni and Fe-Ni-Cr Prepared by Mechanical Alloying. Journal of Electronic Materials, 2015, 44(7):2331-2339.

[4] Xingjun Lv, Mingli Cao, Li Yan, Xin Li, Qian Li, Rong Tang, Qi Wang, Yuping Duan*. A new absorbing foam concrete: preparation and microwave absorbing properties. Advances in Concrete Construction, 2015, 3(2):103-111.

2014年:

[1] Xin Li, Yahong Zhang, Junlei Chen, Yuping Duan*, Guangli Wu, Guojia Ma. Composite coatings reinforced with carbonyl-iron nanoparticles: Preparation and Microwave absorbing properties. Materials Technology, 2014, 29(1):57-64.

[2] Xingjun Lv, Junlei Chen, Xin Li, Yuping Duan*, Zhuo Liu. Effects of temperature and time on microstructure and microwave electromagnetic properties of Ni doped manganese dioxides. Materials Technology, 2014, 29(3), 159-166.

[3] Yuping Duan*, Yahong Zhang, Tongming Wang*, Shuchao Gu, Xin Li, Xinjun Lv. Evolution study of microstructure and electromagnetic behaviors of Fe-Co-Ni alloy with mechanical alloying. Materials Science & Engineering B, 2014, 185: 86-93.

[4] Yuping Duan*, Ming Wen, Yahong Zhang, Junlei Chen. Effect of temperature on the structure, magnetic and microwave electromagnetic properties of manganese nitrides. Journal of Superconductivity and Novel Magnetism, 2014, 27(8):1917-1925.

[5] Yuping Duan, Junlei Chen, Yahong Zhang, Ming Wen, Tongmin Wang*. Structure, morphology and electromagnetic properties of manganese dioxide with Ni-doping. Journal of Superconductivity and Novel Magnetism, 2014, 27: 2139-2146.

[6] Yahong Zhang, Qun Xi, Junlei Chen, Yuping Duan*. Theoretical investigation of the protonation mechanism of doped polyaniline. Journal of Cluster Science, 2014, 25(6): 1501-1510.

[7] Yuping Duan*, Junlei Chen, Yahong Zhang and Tongmin Wang*.The theoretical study on electronic structure and electromagnetic properties of α-MnO2 based on crystal defects. The European Physical Journal - Applied Physics, 2014, 68(3): 30901.

[8] Yahong Zhang, Yuping Duan*, Tongmin Wang*, Excited-state Hydrogen-bonding Dynamics of Camphorsulfonic Acid Doped Polyaniline: A Theoretical Study. Physical Chemistry Chemical Physics, 2014, 16 (47), 26261 - 26265.

[9] Shuqing Li, Shuili Gong, Yuping Duan*, Shunhua Liu. Studies of laser hybrid plasma spraying WC-10Co4Cr coatings. SURFACE ENGINEERING, 2014, 30(1):1-5.

2013年:

[1] Yuping Duan*, Long Wang, Zhuo Liu, Shuchao Gu. Microwave properties of double-layer absorber reinforced with carbon fiber powders. Plastics, Rubber and Composites: Macromolecular Engineering, 2013, 42(2): 82-87.

[2] Zhonglun Zhang, Zhijiang Ji, Yuping Duan*, Shuchao Gu, Jingbo Guo. The superior electromagnetic properties of carbonyl-iron/Fe91.2Si3.1P2.9Sb2.8 composites powder and impedance match mechanism. Journal of Materials Science: Materials in Electronics, 2013,24(3):968-973.

[3] Yuping Duan*, Zhuo Liu, Yahong Zhang, Ming Wen. The theoretical study of dielectric and magnetic response of Fe-doped a-MnO2 based on quantum mechanical calculations. J. Mater. Chem. C, 2013, 1 (10), 1990 –1994.

[4] Yuping Duan*, Shuchao Gu, Ming Wen, Zhuo Liu. The evolution of electronic configuration and magnetic characterization of Fe9Ni1Fe8Ni2 alloy in theoretical calculation. The European Physical Journal B, 2013, 86(10):438.

[5] Shuqing Li, Yuping Duan*, Shuili Gong, Qilian Li, Shunhua Liu, Aiqin Duan. Microstructure and Deposition Mechanism of Laser-Hybrid Plasma Spraying NiCr-Cr3C2 Coating. RARE METAL MATERIALS AND ENGINEERING, 2013, 42(2): 106-109.

[6] Xing Liu, Guojia Ma, Lin Zhang, Gang Sun, Yuping Duan*, Shunhua Liu, Mechanical Properties of Single TaN Film and Ta/TaN Multilayer Films with Different Layers. RARE METAL MATERIALS AND ENGINEERING, 2013, 42(2): 115-119.

[7] 李俊豪，庄哲，何晓川，段玉平*. 具有电磁防护功能的吸波吊顶制备及性能研究. 安全与电磁兼容, 2013，(3):66-68.

[8] 王蕾，王世博，李鑫，段玉平*. 具有吸波功能伪装布的制备及吸波性能研究. 安全与电磁兼容, 2013，(4):53-54.

2012年:

[1] Baoyi Li, Yuping Duan *, Shunhua Liu. The electromagnetic characteristics of fly ash and absorbing properties of cement-based composites using fly ash as cement replacement. Construction and Building Materials, 2012,27:184-188.

[2] Hui Jing, Yuping Duan*, Zhuo Liu, Jia Zhang, Shunhua Liu. Influence of Fe-doping on the microstructure and electromagnetic performance of manganese oxides. Physica B: Condensed Matter, 2012, 407: 971-977.

[3] Yuping Duan *, Guangli Wu, Shuchao Gu, Shuqing Li, Guojia Ma, Study on microwave absorbing properties of carbonyl-iron composite coating based on PVC and Al sheet. Applied Surface Science, 2012, 258(15): 5746-5752.

[4] Yuping Duan *, Hui Jing, Zhuo Liu, Shuqing Li, Guojia Ma. Controlled synthesis and electromagnetic performance of hollow microstructures assembled of tetragonal MnO2 nanocolumns. Journal of Applied Physics, 2012, 111：084109.

[5] Yuping Duan, Zhuo Liu, Hui Jing, Kun Yin, Shunhua Liu, The effects of annealing treatment on the morphology and microwave absorption properties of α-MnO2. Journal of Materials: Design and Applications, 2012, 227(1):61-69.

[6] Yuping Duan*, Shuchao Gu, Zhonglun Zhang, Ming Wen, Characterization of structures and novel magnetic response of Fe87.5Si7Al5.5 alloy processed by ball milling. Journal of Alloys and Compounds, 2012, 542(25): 90-96.

[7] Yuping Duan*, Zhuo Liu, Hui Jing, Yahong Zhang, Shuqing Li, Novel Microwave Dielectric Response of Ni/Co-doped Manganese Dioxides and Their Microwave Absorbing Properties. Journal of Materials Chemistry, 2012, 22 (35), 18291-18299.

[8] Xing Liu, Guojia Ma, Lin Zhang, Gang Sun, Yuping Duan, Shunhua Liu, Mechanical and Tribological Properties of Ta-Cr-N Films with Different Cr Contents Deposited by Reactive Magnetron Sputtering. RARE METAL MATERIALS AND ENGINEERING, 2012, 41(2): 777-780

2011年:

[1] Liyang Chen, Yuping Duan*, Lidong Liu, Jingbo Guo, Shunhua Liu. Influence of SiO2 fillers on microwave absorption properties of carbonyl iron/carbon black double-layer coatings. Materials and Design, 2011, 32: 570-574.

[2] Baoyi Li, Yuping Duan *, Yuefang Zhang, Shunhua Liu. Electromagnetic wave absorption properties of cement-based composites filled with porous materials. Materials and Design, 2011, 32: 3017-3020.

[3] Jianjun Hu, Yuping Duan*, Jia Zhang, Hui Jing, Shunhua Liu, Weiping Li, -MnO2/Polyaniline composites: Preparation, characterization, and applications in microwave absorption. Physica B: Condensed Matter, 2011, 406: 1950-1955.

[4] Yuping Duan*, Jia Zhang, Hui Jing, Shunhua Liu. Morphology-controlled synthesis and novel microwave electromagnetic properties of hollow urchin-like chain Fe-doped MnO2 under 10 T high magnetic field. Journal of Solid State Chemistry, 2011, 184:1165-1171.

[5] Lidong Liu, Yuping Duan*, Jingbo Guo, Liyang Chen, Shunhua Liu. Influence of particle size on the electromagnetic and microwave absorption properties of FeSi/paraffin composites. Physica B: Condensed Matter, 2011, 406(11): 2261-2265.

[6] Jingbo Guo, Yuping Duan*, Lidong Liu, Liyang Chen, Shunhua Liu. Electromagnetic and microwave absorption properties of carbonyl-iron/Fe91Si9 composites in gigahertz range. Journal of Electromagnetic Analysis and Applications, , 2011, 3(5): 140-146.

[7] 李宝毅，段玉平*，刘顺华. 多孔集料砂浆的吸波特性. 硅酸盐学报， 2011(10):1682-1686。

[8] 李宝毅，段玉平*，刘顺华. 基于空心球壳结构的吸波平板的吸波性能研究. 功能材料, 2011(9):1731-1734。

2010年:

[1] Yuping Duan*, Ma He, Li Xiaogang, Liu Shunhua, Ji Zhijiang. The microwave electromagnetic characteristics of manganese dioxide with different crystallographic structures. Physica B: Condensed Matter, 2010, 405: 1826-1831.

[2] Lidong Liu, Yuping Duan*, Shunhua Liu, Liyang Chen, Jingbo Guo. Microwave absorption properties of one thin sheet employing carbonyl–iron powder and chlorinated polyethylene. Journal of Magnetism and Magnetic Materials, 2010, 322: 1736-1740.

[3] 马贺，李宝毅，段玉平*，刘顺华，冀志江. 水热合成法制备微纳米MnO2晶体不同形貌的电磁特性研究. 功能材料与器件学报，2010, 16(1):35-40.

[4] Jia Zhang, Yuping Duan*, Shuqing Li, Xiaogang Li, Shunhua Liu. The effects of high magnetic field on the morphology and microwave electromagnetic properties of MnO2 powder. Journal of Solid State Chemistry, 2010, 183: 1490-1495.

[5] Jia Zhang, Yuping Duan*, Hui Jing, Xiaogang Li, Shunhua Liu. The morphology and electromagnetic properties of MnO2 obtained in 8T high magnetic field. Journal of Crystal Growth, 2010, 312: 2788-2794.

[6] Yuping Duan *, Guangli Wu, Xiaogang Li, Zhijiang Ji, Shunhua Liu, Weiping Li. On the correlation between structural characterization and electromagnetic properties of doped polyaniline. Solid State Sciences, 2010, 12: 1374-1381.

[7] Lidong Liu, Yuping Duan*, Lixin Ma, Shunhua Liu,Zhen Yu. Microwave absorption properties of a wave-absorbing coating employing carbonyl-iron powder and carbon black. Applied surface science, 2010, 257: 842-846.

[8] Yuping Duan*, Jia Zhang, Hui Jing, Shunhua Liu. A study for the morphology and electromagnetic properties of MnO2 obtained under an extra high magnetic field of 3 T, The 4th Asian Workshop and Summer School on Electromagnetic Processing of Materials. JEJU, KOREA, Oct, 3-6,2010.

[9] Yuping Duan*, Guofang Li, Lidong Liu, Shunhua Liu. Electromagnetic properties of carbonyl iron and their microwave absorbing characterization as the filler in silicone rubber, Bulletin of Materials Science, 2010, 33(5):633-6366.2009年:

[1] Yuping Duan, He Ma, Jia Zhang, Xiaogang Li, Shunhua Liu. Electromagnetic characteristics and multiple dielectric relaxations of β-Manganese Dioxide nanorods. Chinese Journal of Inorganic Chemistry, 2009, 25(9):1635-1641.

[2] Yu Zheng, Yuping Duan*, Shunhua Liu, et al. Growth behavior of Cu/Al intermetallic compounds in hot-dip aluminized copper. Surface and Interface Analysis, 2009,41, 361-365.

[3] Meng Wang*, Yuping Duan*, Shunhua Liu, Xiaogang Li, zhijiang Ji. Absorption properties of carbonyl-iron/carbon black double-layer microwave absorbers. Journal of Magnetism and Magnetic Materials, 2009, 321(20):3442-3446.

[4] Lina Jing, Guiqin Wang, Yuping Duan*, Yuzong Jiang. Synthesis and electromagnetic characteristics of the flake-shaped barium titanate powder. Journal of Alloys and Compounds, 2009, 475:862-868.

[5] 段玉平，杨洋，冀志江，崔晓东，刘顺华. MnO2/CB环氧树脂双层复合材料的吸波性能研究，材料科学与工艺，2009，17(2):163-166.

[6] 马贺，段玉平*，张佳，刘顺华，冀志江，自生核壳结构MnO2的电磁性能及其生长机理研究，无机化学学报，2009, 25(12):2119-2123.

[7] 马贺，段玉平*，李宝毅，刘顺华，冀志江，水热合成β-MnO2纳米棒的电磁特性，硅酸盐学报，2009，37(7): 1196-1200.

2008年:

[1] Yuping Duan *, Yang Yang, He Ma, Shunhua Liu, Xiaodong Cui, Xiaodong Chen. Absorption properties of α-manganese dioxide/carbon black double-layer composites. Journal of physical D: Applied Physics. 2008, 41(12):125403.

[2] 段玉平，张昕，刘顺华*. 纳米二氧化锰散射截面对炭黑电磁性能的影响. 材料科学与工艺，2008, 16(6): 741-744.

2007年:

[1] Xin Zhang, Yuping Duan*, Shunhua Liu. Effect of doping MnO2 on magnetic properties for M-type barium ferrite. J.Magn.Magn.Mater, 2007, 311(2): 507-511.

[2] 段玉平, 刘顺华, 王桂芹, 温斌. CB/ABS连续导电介质吸波性能研究. 功能材料, 2007, 38(2): 227-230.

[3] 段玉平*, 刘顺华, 杨洋, 电磁特性的反向异性平板复合材料的研究, 昆明理工大学学报, 2007, 32(3A): 175-178.

2006年:

[1] Yuping Duan, Shunhua Liu, Hongtao Guan. Investigation of electromagnetic characteristics of polyaniline composite. Journal of Composite Materials, 2006, 40(12):1093-1104.

[2] Yuping Duan, Shunhua Liu, Bin Wen, Hongtao Guan, Guiqin Wang. A discrete slab absorber: absorption efficiency and theory analysis. Journal of Composite Materials. 2006, 40(20): 1841-1851.

[3] Yuping Duan, Shunhua Liu, Guiqin Wang, Hongtao Guan, Bin Wen. Effect of a Coupling Agent on the Electromagnetic and Mechanical Properties of Carbon Black/Acrylonitrole-Butadiene-Styrene Composites. Journal of applied polymer science. 2006, 12:1839-1843.

[4] 段玉平，刘顺华，管洪涛，温斌，王桂芹. 非连续体吸波平板的设计制备及吸波机理分析，复合材料学报. 2006, 23(3): 37-43.

[5] 段玉平，刘顺华，胡雅琴，温斌，王桂芹. 炭黑/ABS高密度复合体的电性能与电磁特性, 功能材料，2006, 37(1): 36-39.

[6] 段玉平 刘顺华 王桂芹，管洪涛. 含随机分布散射颗粒的吸波体设计和性能分析,大连理工大学学报. 2006,46 (6): 823-827.

[7] 刘永海，段海平，段玉平*. 新型建筑用铸态硅橡胶/聚苯胺屏蔽复合材料的研究, 铸造技术，2006，27(5): 517-520.

2005年:

[1] Yuping Duan*, Shunhua Liu, Hongtao Guan. Investigation of electrical conductivity and electromagnetic shielding effectiveness of polyaniline composite. Science and Technology of Advanced Materials, 2005,6(5): 513-518.

[2] 段玉平*，刘顺华，管洪涛，温斌. 强磁场作用对聚苯胺颗粒形貌及电性能的影响. 化学学报, 2005,63(17):1595-1599.

[3] Yuping Duan*, Shunhua Liu, Hongtao Guan. Orientation effects of high magnetic field on grain shape of doped polyaniline. Journal of Functional Materials, 2005, 36(9):1455-1458.

[4] Hongtao Guan, Shunhua Liu, Yuping Duan*. Effects of adhesive binders on the electromagnetic properties of silicon dioxide based composites. Chinese Journal of Functional Materials. 2005,36(12): 1981-1984. (EI)

2004年:

[1] 段玉平*，刘顺华，管洪涛，李鹏，钟武波. ABS复合平板材料屏蔽及吸波效能的分析. 塑料工业, 2004, 32(12): 54-57.

[2] 段玉平*，刘顺华，管洪涛，郭辉进，刘军民. 缝隙对金属网屏蔽效能的影响. 安全与电磁兼容, 2004, (4): 46-48.