1. 国家磁约束核聚变能发展研究专项：面向CFETR偏滤器材料和模块的高热负荷等性能的规范化测试与评价（2019YFE03120004）

2. 国家磁约束核聚变能发展研究专项：低渗透阻氚材料体系的开发及成型技术研究（2019YFE03130002）

3. 国家重点研发项目：稀土相变制冷材料的多尺度设计与先进制备技术；

4. 国家重点研发项目：基于材料基因工程的高性能稀土磁制冷材料研究；

5. 国家自然科学基金：新型铜合金中高温稳定相的析出机制及界面调控研究（51971021）

6. 国家自然科学基金：ODS钢FSW焊接接头的辐照损伤机理研究（11775017）

7. 国家自然科学基金：ZrO₂纳米晶的离子辐照效应研究（11175014）

8. 国家自然科学基金：基于铁磁相变调控的巨磁热材料热磁发电性能研究

9. 国家自然科学基金：基于磁各向异性的取向多晶磁制冷材料的旋转磁热效应研究；

10. 国家自然科学基金：磁制冷材料的滞后现象对制冷能力的影响；

11. 国家自然科学基金联合基金：快堆包壳用ODS钢弥散颗粒界面与辐照缺陷的相互作用机理

12. 核技术创新联合基金：快堆包壳用ODS钢弥散颗粒界面与辐照缺陷的相互作用机理（U1967212）

13. GF科技工业核材料技术创新中心项目：ODS/RAFM异种钢搅拌摩擦焊接技术研究

14. 北京市科技计划项目，高频高温磁性FeCo基纳米晶软磁合金的开发及应用

15. 北京市自然科学基金：辐照条件下氧化铈纳米晶薄膜的自修复性能研究（2162023）

16. 北京市自然科学基金：稀土金属间化合物中多相变调控优化磁热效应的机理研究；

17. 北京市自然科学基金：准一维氧化锌纳米结构新颖物理性能研究（1092014）

18. 中国核动力研究设计院：ODS钢样品制备及性能表征

19. 中央高校科研业务费：核潜艇用ODS高熵合金的制备及辐照效应研究（FRF-GF-17-A7）

20. 中央高校基本科研业务费项目，低温磁性蓄冷材料

21. 中央高校基本科研业务费（人才引进）：高安全高性能水系锌金属电池的开发及研究；

22. 中国科学院合肥物质科学研究院：高温用新型铜合金制备技术研究（IPP-ZC-18120407）

23. 中国原子能研究院：Al合金和石墨带电离子辐照样品测试分析（2018-041）

24. 博士后创新人才支持计划：高性能锂硫电池电极材料设计；

25. 博士后基金面上项目：基于磁性金属碳化物设计高性能锂硫电池及固硫机理研究；

26. 佛山市川东磁电股份有限公司：新型磁性功能材料；

1. M.Y. Li, P. Hu, Y.M. Zhang, Y.Q. Chang, Enhancing performance of the CuCrZrTiV alloys through increasing recrystallization resistance and two-step thermomechanical treatments, Journal of Nuclear Materials 543 (2021) 152482

2. R.R. Yang, Y.Q. Chang, X. Yang, J.J. Dai, Y.H. Chen, W. D. Chang, W. Xiong, Electromechanical sorting method for improving the sensitivity of micropyramid carbon nanotube film flexible force sensor improving the sensitivity of micropyramid carbon nanotube film flexible force sensor, Composites Part B: Engineering, 217 (2021) 108818

3. M.Y. Li, H. Wang, Y.H. Guo, H.L. Wang, D.D. Zheng, J.F. Shan, Y.Q. Chang, Microstructures and mechanical properties of the novel CuCrZrFeTiY alloy for fusion reactor, Journal of Nuclear Materials, 532 (2020) 152063

4. Q. Wu , M.Y. Li , Y.H. Guo , J.F. Shan , H.L. Wang , Y.Q. Chang, Microstructural evolution and mechanical properties of friction stir welded, 12Cr-ODS steel, Nuclear Materials and Energy 25 (2020) 100804

5. M.Y. Li , Y.H. Guo , H.L. Wang , J.F. Shan , Y.Q. Chang, Microstructures and mechanical properties of oxide dispersion strengthened CoCrFeNi high-entropy alloy produced by mechanical alloying and spark plasma sintering, Intermetallics, 123 (2020) 106819

6. Yuyu Ren, Xing Yang, Yongqin Chang, Junfang Shu; Kai Luo, Highly sensitive and flexible strain sensor based on Au thin film, Journal of Micromechanics and Microengineering, 29 (2019) 015001

7. M.Y. Li, H. Wang, Y.H. Guo, H.L. Wang, D.D. Zheng, J.F. Shan, Y.Q. Chang, Microstructures and mechanical properties of the novel CuCrZrFeTiY alloy for fusion reactor, Journal of Nuclear Materials, 532 (2020) 152063

8. Y.H. Guo, M.Y. Li, C.G. Chen, P. Li, W.M Li, Q.Z Ji, Y.W. Zhang, Y.Q. Chang, Oxide dispersion strengthened FeCoNi concentrated solid-solution alloys synthesized by mechanical alloying, 117 (2020) 106674

9. Y.H. Guo, M.Y. Li, P. Li, C.G. Chen, Q. Zhan, Y.Q. Chang, Y.W. Zhang, Microstructure and mechanical properties of oxide dispersion strengthened FeCoNi concentrated solid solution alloys, Journal of Alloys and Compounds, 820 (2020) 153104

10. Y.Q. Chang, Y.H. Guo, M.Y. Li, K. Wang, L. Lv, D. Liu, Effects of crystal quality, grain-size and oxygen vacancy of nanocrystalline CeO₂ films under 1.5 MeV Au ion irradiation, Journal of Nuclear Materials, 518 (2019) 41-47.

11. Y.H. Guo, Y.Q. Chang, J. Zhang, J.Z. Li, S. Ukai, F.R. Wan, Microstructures and ion-irradiation behavior of friction stir welded 12Cr-ODS steel，Science and Technology of Welding And Joining, 23 (2018) 50-57.

12. X.C. Tao, Y.Q. Chang, Y.H. Guo, W.M. Li, M.Y. Li, Microstructure and mechanical properties of friction stir welded oxide dispersion strengthened AA6063 aluminum matrix composites enhanced by post-weld heat treatment, Materials Science & Engineering A, 725 (2018) 19-27.

13. J. Zhang, Y.Q. Chang, Z.M. Guo, P.P. Liu, Y. Long, F.R. Wan, Microstructure and Nano-hardness of Pure Copper and ODS Copper Alloy under Au Ions Irradiation at Room Temperature, Acta Metallurgica Sinica-English Letters, 29 (2016) 1047-1052

14. K Wang, Y.Q. Chang, L. Lv, Y. Long, Effect of annealing temperature on oxygen vacancy concentrations of nanocrystalline CeO₂ film, Applied Surface Science, 351 (2015) 164-168.

15. Q.L. Sun, Y.Q. Chang, C.J. Shao, Y. Long, Controlled growth of ZnO with different morphologies by a simple aqueous solution method, Materials Science Forum, 814 (2015) 13-18

16. Y.Q. Chang, C.J. Shao, N. Jiang, S.Q. Wang, B. Zou, Y. Long, Effect of  Sn on sensing  performance of nanostructured ZnO film, Functional materials letters, 8 (2015) 1540009-1-5.

17. Y.Q. Chang, Q.L. Sun, Y. Long, M.W. Wang，Effect of crystalline quality on magnetic properties of Mn doped ZnO nanowires, Chinese Physics letter, 31 (2014) 127501-1-4.

18. Q. Chen, Y.Q. Chang, C.J. Shao, J. Zhang, J. Chen, M.W. Wang, Y. Long, Effect of grain size on phase transformation and photoluminescence property of the nanocrystalline ZrO₂, J. Mater. Sci. Technol., 30 (2014) 1103-1107.

19. C.J. Shao, Y.Q. Chang, Y. Long, High performance of nanostructured ZnO film gas sensor at room temperature, Sensors and Actuators B, 204 (2014) 666-672.

20. Y.Q. Chang, J. Zhang, X.L. Li, Q. Guo, F.R. Wan, Y. Long, Microstructure and nanoindentation of the CLAM steel with nanocrystalline grains under Xe irradiation, Journal of Nuclear Materials, Journal of Nuclear Materials, 455 (2014) 624-629.

21. L. Chen, Y.Q. Chang, Q. Guo, J. Zhang, F.R. Wan, Y. Long, Phase stability, grain growth and photoluminescence property of nanocrystalline yttria-stabilized zirconia film under 500 KeV Xe⁶⁺ ion irradiation, Nuclear Instruments and Methods in Physics Research B, 328 (2014) 84-88.

22. Y.Q. Chang, Y.D. Lu, M.W. Wang, Y. Long, R.C. Ye, Self-assembly growth of ZnO-based axial and radial junctions via a two-step method, Applied Surface Science, 264 (2013) 687-691.

23. Y.Q. Chang, Q. Guo, J. Zhang, L. Chen, Y. Long, F.R. Wan, Irradiation effects on nanocrystalline materials, Frontiers of materials science, 7 (2013) 143-151. Invited review paper.

24. Y.Q. Chang, Y. Zhang, Z. Zhu, P.D. Edmondson, W.J. Weber, MeV Au ion irradiation in silicon and nanocrystalline zirconia film deposited on silicon substrate, Nuclear Instruments and Methods in Physics Research B, 286 (2012) 173-179. 

25. H. Zhang, C. F. Xing, H. Zhou, X. Q. Zheng, X. F. Miao, L. H. He, J. Chen, H. L. Lu, E. K. Liu, W. T. Han, H. G. Zhang, Y. X. Wang, Y. Long, L. van Eijk, E. Bruck. Giant anisotropic magnetocaloric effect by coherent orientation of crystallographic texture and rare-earth ion moments in HoNiSi polycrystal. Acta Materialia 193 (2020) 210-220.

26. H. Zhang, A. Armstrong, P. Müllner. Effects of surface modifications on the fatigue life of unconstrained Ni-Mn-Ga single crystals in a rotating magnetic field. Acta Materialia 155 (2018) 175-186.

27. M. Romanini, Y. X. Wang, K. Gurpinar, G. Ornelas, P. Lloveras, Y. Zhang, W. K. Zheng, M. Barrio, A. Aznar, A. G. Condal, B. Emre, O. Atakol, C. Popescu, H. Zhang, Y. Long, L. Balicas, J. L. Tamarit, A. Planes, M. Shatruk, L. Manosa. Giant and reversible barocaloric effect in trinuclear spin-crossover complex Fe3(bntrz)6(tcnset)6. Advanced Materials 33 (2021) 2008076.

28. Y. X. Wang, V. Yannello, J. Graterol, H. Zhang, Y. Long, and M. Shatruk. Theoretical and experimental insights into the effects of Zn doping on the magnetic and magnetocaloric properties of MnCoGe. Chemistry of Materials 32 (2020) 6721-6729.

29. H. D. Chen, Z. H. Ma, X. L. Liu, K. M. Qiao, L. L. Xie, Z. X. Li, J. Shen, W. Dai, Z. Q. Ou, H. Yibole, O. Tegus, S. V. Taskaev, K. Chu, Y. Long, H. Zhang. Evaluation of thermomagnetic generation performance of classic magnetocaloric materials for harvesting low-grade waste heat. Applied Energy 306(2022) 117999 .

30. Y. Y. Lu, H. Zhou, H. N. Mao, S. S. Tang, L. Sheng, H. Zhang, J. Liu. Liquid metal-based magnetorheological fluid with a large magnetocaloric effect. ACS Applied Materials & Interfaces 12 (2020) 48748-48755.

31. Y. X. Wang, H. Zhang, E. K. Liu, X. C. Zhong, K. Tao, M. L. Wu, C. F. Xing, Y. N. Xiao, J. Liu, and Y. Long. Outstanding Comprehensive Performance of La(Fe, Si)13Hy/In Composite with Durable Service Life for Magnetic Refrigeration. Advanced Electronic Materials 4 (2018) 1700636 .

32. Z. H. Ma, H. D. Chen, X. L. Liu, C. F. Xing, M. L. Wu, Y. X. Wang, P. R. Liu, Z. Q. Ou, J. Shen, S. V. Taskaev, K. W. Long, Y. Long, and H. Zhang. Thermomagnetic Generation Performance of Gd and La(Fe, Si)13Hy/In Material for Low-Grade Waste Heat Recovery. Advanced Sustainable Systems 5 (2021) 2000234 .

33. H. Zhang, Y. J. Sun, E. Niu, F. X. Hu, J. R. Sun, and B. G. Shen. Enhanced mechanical properties and large magnetocaloric effects in bonded La(Fe, Si)13-based magnetic refrigeration materials. Applied Physics Letters 104 (2014) 062407.

34. H. Zhang, B. G. Shen, Z. Y. Xu, J. Shen, F. X. Hu, J. R. Sun, and Y. Long. Large reversible magnetocaloric effects in ErFeSi compound under low magnetic field change around liquid hydrogen temperature. Applied Physics Letters 102 (2013) 092401 .

35. H. Zhang, Y. J. Sun, E. Niu, L. H. Yang, J. Shen, F. X. Hu, J. R. Sun, and B. G. Shen. Large magnetocaloric effects of RFeSi (R = Tb and Dy) compounds for magnetic refrigeration in nitrogen and natural gas liquefaction. Applied Physics Letters 103 (2013) 202412.

36. J.N. Guo , J.L. Li , R.C. Ye, C.S. Wei , Y. Long，Researches on corrosion behavior and magnetocaloric effect of the LaFe_11.7-xCo_xAl_1.3 alloys，Journal of Alloys and Compounds, 846 (2020) 156298

37. S. Sun，R.C. Ye, Y. Long，Influence of the substitution of Ni for Fe on the microstructure evolution and magnetic phase transition in La(Fe_1-xNi_x)_11.5Si_1.5 compounds. Material Science and Engineering B, 178 (2013) 60~64

38. S. Sun，R.C. Ye，H.F. Li，Y.P. Zhang，Y.H. Jia，Y.F. Wu，Y. Long，Effect of Mn substitution on microstructure evolution and magnetic phase transition in La(Fe_1-xMn_x)_10.8Co_0.7Si_1.5 compounds，Metallurgical and Materials Transactions A，44A (2013) 5782-5787

39. M. Zhang, Y. Long, R.C. Ye, Y.Q. Chang，Corrosion behavior of magnetic refrigeration material La-Fe-Co-Si in distilled water，Journal of Alloys and Compounds, 509 (2011) 3627-3631

40. L. Zhang, Y. Hou. Comprehensive Analyses of Aqueous Zn Metal Batteries: Characterization Methods, Simulations, and Theoretical Calculations.  Advanced Energy Materials, 2021, 11, 2003823.

41. L. Zhang, B. Zhang, T. Zhang, T. Li, T. Shi, W. Li, T. Shen, X. Huang, J. Xu, X. Zhang, Z. Wang, and Y. Hou. Eliminating Dendrites and Side Reactions via a Multifunctional ZnSe Protective Layer toward Advanced Aqueous Zn Metal Batteries. Advanced Functional Materials, 2021, 31, 2100186.

42. L. Zhang, Y. Liu, Z. Zhao, P. Jiang, T. Zhang, M. Li, S. Pan, T. Tang, T. Wu, P. Liu, Y. Hou, and H. Lu. Enhanced Polysulfide Regulation via Porous Catalytic V₂O₃/V₈C₇ Heterostructures Derived from Metal-Organic Frameworks toward High-Performance Li-S Batteries. ACS Nano, 2020, 14, 8495-8507.

43. L. Dong, L. Zhang, S. Lin, Z. Chen, X. Zhao, W. Liu, H. Lu, and K. P. Loh. Building Vertically-Structured, High-Performance Electrodes by Interlayer-Confined Reactions in Accordion-Like, Chemically Expanded Graphite. Nano Energy, 2020, 70, 104482.

44. L. Zhang, Y. Pan, Y. Chen, M. Li, P. Liu, C. Wang, P. Wang, and H. Lu*. Designing Vertical Channels with Expanded Interlayer for Li-ion Batteries. Chemical Communications, 2019, 55, 4258-4261.

45. L. Zhang, Z. Chen, N. Dongfang, M. Li, C. Diao, Q. Wu, X. Chi, P. Jiang, Z. Zhao, L. Dong, R. Che, K. P. Loh, and H. Lu. Nickel-Cobalt Double Hydroxide as a Multifunctional Mediator for Ultrahigh-Rate and Ultralong-Life Li-S Batteries.  Advanced Energy Materials, 2018, 8, 1802431.

46. L. Zhang, L. Dong, M. Li, P. Wang, J. Zhang, and H. Lu. Ultra-High-Rate, UltraLong-Life Asymmetric Supercapacitors Based on Few-Crystalline, Porous NiCo₂O₄ Nanosheet Composites. Journal of Materials Chemistry A, 2018, 6, 1412-1422

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