赵兴明

赵兴明,男,1991年生,辽宁朝阳人,博士,副教授,研究生导师。博士就读于东北大学材料科学与工程学院。博士期间参与国家自然科学基金项目1项。IEEE MTT&AP会员和中国热处理学会理事,目前,主要从事Bi系超导薄膜、Al基复合材料的强韧化研究及高性能软磁复合材料的制备等方向的研究。参与国家自然科学基金项目1项,主持辽宁省科技厅自然科学基金项1项,辽宁省教育厅项目2项,累计科研进款100余万元,指导大学生创新创业比赛获国家级、省级奖10多项,其中国家一等奖1项,并评为优秀指导教师。目前已在 Sustainable Materials and TechnologiesJournal of Materials Research and TechnologyMaterials CharacterationCeramics InternationalJournal of Alloys and Compounds IntermetallicsColloids and Surfaces A-physicochemical and Engineering AspectsColloids and Surfaces B-biointerfacesSensors and Actuators B: Chemical国内外期刊发表检索论文48篇,其中第一及通讯作者20篇。  

1. 教育及工作经历

2010.09-2014.07     辽宁工业大学       材料科学与工程          工学学士

2014.09-2017.03     辽宁工业大学       材料加工工程            工学硕士

2017.09-2022.04     东北大学           材料物理与化学          工学博士

2022.06-2024.12    辽宁工业大学       材料科学与工程学院         讲师

2024.12-至今       辽宁工业大学       材料科学与工程学院        副教授

2023.11-2026.01 辽阳象屿铝业有限公司和东北大学   冶金专业        博士后

2. 研究方向

1. 高温超导材料的制备及性能研究;

2. 高性能软磁复合材料的制备研究;

3.  铝基复合材料的强韧化研究;

4. 不锈钢短纤维及滤芯的制备研究。

3. 科研课题

1、 国家自然科学基金面上项目,52471134,双级结构Cu/Mg2Si增强铝基复合材料的强韧化机理研究,2025.01-2028.1248万,参与;

2、 辽宁省教育厅创新发展项目,面向汽车轻量化不锈钢纤维粉/Si协同增强铝基复合材料研究,LJ2425101540045万,主持;

3、 辽宁省科技厅博士启动项目,2024-BS-242,润湿性和异质结调控对Bi2212薄膜性能的影响及机理研究,2024.09-2026.085万元,主持;

4、 辽宁省教育厅青年项目, LJKQZ20222270 Bi2212超导薄膜及带材的制备与应用研究,2022.09-2024.094万元,主持;

5、 辽宁工业大学博士启动项目,XB2022003,大尺寸Bi2212超导薄膜的制备及应用研究,10万元。主持.

4. 代表性论文及专利

1. X.M. Zhao, Z.S. Lv, Y.Y Shi et al., Anisotropic Bi2212 superconducting thin films for future terahertz applications on different single crystal substrates by sol-gel method, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 725 (2025): 137650. SCI.

2. H-S Chu, D-M. Ma, X.M. Zhao*, et al. NiO@CoxSy nanostructures electrocatalysts designed for efficient alkaline water electrolysis, Sustainable Materials and Technologies, 45 (2025): e01527.SCI

3. M.X. Wang, X.M. Zhao*, D.M. Ma, et al. Bifunctional NiO@CoZnLDH composites with fower‑like nanoarchitecture: synergistic enhancement of energy storage and water electrolysis performance, Journal of Materials Science, 2025. SCI.

4. Y-X. Li, D.-M. Ma, M.-X. Wang, C. Wang, F.F. Wu, R-D. Zhao, J. Xiang, X.M. Zhao*, Heterostructured COF/TiO₂/MWCNT-COOH composite sensor for simultaneous and individual electrochemical detection of dopamine and uric acid, Journal of Alloys and Compounds, 1037 (2025) 182602.SCI.

5. Y-X. Li, D.-M. Ma, M.-X. Wang, C. Wang, F.F. Wu, R-D. Zhao, J. Xiang, X.M. Zhao*, Electrochemical response of a COF/MWCNT sensor based on a bifunctional COF towards dopamine and uric acid, New J. Chem., 2025, 49, 93689378.SCI.

6. H.X. Tian, D.-M. M, X.M. Zhao* , J.R. Meng, H.L. Li, X. Liu G.H. Zhao, G.A. Zhang, R.D. Zhao, F.F. Wu, Effect of double deformation extrusion on the microstructure and properties of 4032 aluminum alloy, Materials Today Communications, 42 (2025) 111396. SCI.

7. H.X. Tian, D.M. Ma, X.M. Zhao*, J.R. Meng, H.L. Li, X. Liu, G.H. Zhao, G.A. Zhang., R.D. Zhao, F.F. Wu*, Effect of double deformation extrusion on the microstructure and properties of 4032 aluminum alloy, Materials Today Communications,2025, 42: 111396.

8. X.M. Zhao, H.X. Tian, Y. Qi, X.M. Lu, Yubo Ma, H.L. Li, J. Xiang, D.M. Ma, F.F. Wu, T.L. Wang, A novel method to enhance the superconducting properties of Bi2Sr2CaCu2O8+δ superconducting thin films by self-assembly NiO nanorods, Ceramics International, 2024, 50: 35388–35396.

9. F.C. Zhao, X.M. Zhao*, R.D. Zhao, F.F. Wu*, S.H. Chen, Enhanced mechanical properties of NiCoCrCuAl high entropy alloys with dual-phase microstructure, Intermetallics, 2025, 178: 108627.

10. X.M. Zhao, H.Y. Zhou, Y. Qi, X.M. Lu, M.N. Sun, W. Wei, D.M. Ma, F.F. Wu, T.L. Wang, The growth mechanism and properties of Bi2212 thin films on miscut substrates by sol-gel method, Colloids and Surfaces A-physicochemical and Engineering Aspects, 2024, 684: 133134.

11. X.M. Zhao, Z.S. Lv, Y. Qi, X.M. Lu, W. Wei, D.M. Ma, W. Gong, F.F. Wu, T.L. Wang, A process for the preparation of high-quality and uniform large-scale Bi2212 superconducting films via the sol-gel method, Journal of Materials Research and Technology, 2023, 26: 8337-8350.

12. X.M. Zhao, J.R. Meng, Y. Qi, X.M. Lu, D.M. Ma, W. Wei, F.F. Wu, T.L. Wang, A novel method to improve the morphology of Bi2212 film by PVA-assisted Pechini sol-gel method, Materials Today Communications, 2023, 36: 106740.

13. H.S. Chu, D.M. Ma, F.F. Wu, R.D. Zhao, J. Xiang, L.F. Li, X.M. Zhao*, T.L. Wang, ZnS@Co(OH)2 nanostructured materials with high-performance energy storage and superior electrocatalytic activity, Ceramics International, 2025.

14. Z.S. Lv, X.M. Zhao*, J.B. Chen, W. Wei, X. Zhu, H.L. Li, X. Liu, G.D. Wang, R.D. Zhao, F.F. Wu*, A novel process for the preparation of high-performance heat-resistant Al-Si-Fe alloy by powder metallurgy method, Materials Today Communications, 2024, 40: 109656.

15. X.M. Zhao, F.C. Zhao, Y. Qi, J. Zhang, W.Z. Wang, X.M. Lu, C. Zhang, F.F. Wu, M.G. Wang, T.L. Wang, Nanoscale analysis of the interface structure and strain of the Bi2Sr2CaCu2O8+δ/LaAlO3 heterogeneous system. Journal of Alloys and Compounds, 2023, 948: 169734.

16. X.M. Zhao*, J.R. Meng, C. Zhang, W. Wei, F.F. Wu*, G.A. Zhang*, A novel method for improving the microstructure and the properties of Al-Si-Cu alloys prepared using rapid solidification/powder metallurgy, Materials Today Communications, 2023(35): 105802.

17. F.C. Zhao, X.M. Zhao*, J.L. Bi, X. Zhu, H.L. Li, G.S. Qin, X. Liu, W. Wei, R.D. Zhao, F.F. Wu, Influence of the microstructure and mechanical properties of a hypoeutectic Al-10Mg2Si in situ composite with yttrium addition, JOM, 2025(77): 1183-1195.

18. Y.X. Li, D.M. Ma, R.D. Zhao, J. Xiang, X.M. Zhao*, Thioxanthone functionalized NanoTiO2 composites as photocatalyst for degradation of organic dyes, ACS Omega, 2024, 9: 33081-33089.

19. F.C. Zhao, X.M. Zhao*, T.Z. Jiang, R.D. Zhao, F.F. Wu*, Comprehensive study of CoCrCuNi high-entropy alloys: effects of preparation, heat treatment, computational Simulation, and alloying elements, Metals, 2024, 14, 1240.

20. H.X. Tian, F.C. Zhao, D.M. Ma, X,M. Zhao*, J.R. Meng, G.A. Zhang, F.F. Wu*, An improved process for solving the sintering problem of Al-Si Alloy powder metallurgy, Metals, 2024, 14, 1295.

21. X.M. Zhao, W.B. Liu, T.L. Wang, A.H. Liu, T.H. Li, Y.J. Chen, X.X. Liu, X.C. Ma, B.Z. Sun*, Y. Qi*. Growth of Bi2Sr2CaCu2O8+δ thin films with enhanced superconducting properties by incorporating NiO nanoparticles, Colloids and Surfaces A-physicochemical and Engineering Aspects, 2021, 627: 127121.

22. X.M. Zhao, L.L. Jiang, T.L. Wang, W.B. Liu, D.X. Wang, J. Zhang, B.W. Zhang, B.Z. Sun*, Y. Qi*. A novel process for the preparation of Bi2Sr2CaCu2O8+δ films with smooth surface via sol-gel method, Ceramics International, 2021, 47: 25121-25130.

23. X.M. Zhao, D.X. Wang, T.L. Wang, S.C. Hong, L.L. Jiang, Y.X. Dai, Y. Qi*. Preparation of Bi2Sr2CaCu2O8+δ(Bi2212) superconductor by Pechini sol-gel method: thermal decomposition and phase formation kinetics of the precursors, Journal of Materials Science Materials in Electronics, 2020, 31(22): 19997-20008.

24. X.M. Zhao, T.L. Wang, S.C. Hong, D.L. Sun, N. Wang, G.K. Chae, Y. Qi*. Superconducting properties and non-isothermal crystallization kinetics of Bi2Sr2CaCu2O8+δ (Bi2212) superconductor prepared by Pechini Sol-Gel Method, RSC Advances, 2019, 9: 35280-35288.

25. X.Y. Liu, X.M. Zhao, D.M. Ma, J. Xiang, Y.F. Li, S.B. Zhang, Nanoengineering of CoFe‑LDH@Ni(OH)2 for supercapacitor and water splitting applications, Journal of Materials Science, 2024, 59: 14295–14312.

26. W.B. Liu, X.M. Zhao, Y.X. Dai, Y. Qi. Study on the oriented self-assembly of cuprous oxide micro-nano cubes and its application as a non-enzymatic glucose sensor, Colloids and Surfaces B-bio interfaces, 2022, 211: 112317. (共一)

27. Y. Qi, D.L. Sun, X.M. Zhao, B.S. Dai, Y.X. Dai, High pressure amplify the structural characteristic of calcium-doped Bi-2201 phase, Journal of Sol-Gel Science and Technology, (2023) 106:107–113.

28. W. Wei, Y. Sun, M.H. Chen, X.M. Zhao, Y. Tang, L. Zou. X.H. Yang. Rapid fatigue life prediction of butt joint using energy dissipation, International Journa of Mechanical Science, 245(2023): 108109.

29. J.H. Li, W. Wei, H. Zhang, Z. Yao, X.M. Zhao, G.L. Yin, X. H. Yang, On the investigation of microstructure and mechanical properties of the AlCoCrFeNi2.1/316L dissimilar spot-welded joint,  Materials Today Communications, 41(2024): 11099.

30. H.Y. Zhou, R.Y. Li, S.L. Xu, B.Y. Zhang, R.D. Zhao, X.M. Zhao, F. F. Wu, D.P. Zhao, Interface Engineering induced homogeneous isomeric bimetallic of CoSe/NiSe2 electrocatalysts for high performance water/seawater splitting, Adv. Sustainable Syst. 2024, 2400849.

31. 魏巍, 孙杨, 赵兴明, 陈明华, 邹丽, 杨鑫华, 一种基于能量耗散的对接接头疲劳寿命快速预测模型, 焊接学报, 44(2023): 91-97.(EI)

32. T.L. Wang, X.M. Zhao, H.Z. Yang, Y. Qi*. On the roles of HEC in Pechini sol-gel method: Enhancement of stability, wettability of the sol and surface roughness of Bi2212 film, Ceramics International, 2018, 44: 12144-12148.

33. W.B. Liu, X.M. Zhao, Q. Guo, Y.X. Dai, J. Tan, M.G. Wang, Y. Qi*. Preparation of electrochemical sensor based on the novel NiO quantum dots modified Cu/Cu2O 3D hybrid electrode and its application for non-enzymatic detection of glucose in serums and beverages, Journal of Alloys and Compounds, 2022, 895:162573.

34. W.B. Liu, X.M. Zhao, Y.X. Dai, Y. Qi*. Preparation of three dimensional Cu2O/Au/GO hybrid electrodes and its application as a non-enzymatic glucose sensor, Microchemical Journal, 2022, 179: 107451.

35. W.B. Liu, G.C. Chai, X.M. Zhao, Y.X. Dai, Y. Qi*. Effect of different copper sources on the morphology of cuprous oxide and its application as a non-enzymatic glucose sensor, Sensors and Actuators B: Chemical, 2020, 321: 128485.

36. W.B. Liu, Q. Guo, X.M. Zhao, B.W. Zhang, M.G. Wang, Y.X. Dai, Y. Qi*. The dependence of Cu2O morphology on different surfactants and its application for non-enzymatic glucose detection, Colloids and Surfaces B: biointerfaces, 2021, 208: 112087.

37. S.C. Hong*, S.B. U*, X.M. Zhao, Y. Qi. Thermal decomposition of precursor of SmBiO3 buffer layer for YBCO high-temperature superconducting tape, Ceramics International, 2022, 48: 4782-4786.

38. D.M. Ma, H.S. Chu, Y.X. Li, Y.F. Li, R.D. Zhao, J.X. Xiang, Z.M. Zhao, D.J. Qian, Photo-and electrochemical properties of newly synthesized thioxathone-viologen-fluorene ternary compound and its electrochromic device, Engineering Aspects, Colloids and Surfaces A: Physicochemical and Engineering Aspects 684 (2024) 13316.

39. N. Wang, J. Zhang, B. Chen, T.L. Wang, D.L. Sun, X.M. Zhao, H.Z. Yang, Y.X. Dai, L.Q. Zhang, Y. Qi*. The interface boundaries channel based method for improving the hydrophobicity of semimetal films, Applied Surface Science, 2020, 524: 146097.

40. J. Zhang, W.Z. Wang, T.L. Wang, L.L. Jiang, N. Wang, D.L. Sun, X.M. Zhao, M.G. Wang, Y. Qi*. Nanoscale characterization of the doped SrZrO3 nanoparticles distribution and its influence on the microstructure of Bi2Sr2CaCu2O8+δ film, Journal of Alloys and Compounds, 2021, 858: 157650.

41. 洪成哲, 赵兴明, 王天林, 金秀英, 金秀吉, 祁阳*. 高温超导带材用YBCO前驱体的热分解非等温动力学研究, 功能材料, 2019, 50: 9147-9152. (EI)

42. 赵兴明, 赵荣达*, 何力佳, 张广安, 齐锦刚. Al-Sr变质剂对Al-18Mg2Si合金微观组织和力学性能的影响, 金属功能材料, 2014, 21: 12-15. (核心)

43. 张广安*, 赵兴明, 王鸿健, 巴宏波, 赵荣达, 马光元. 挤压比对快速凝固/粉末冶金Al-Si-Cu合金组织和性能的影响,热加工工艺, 2018, 47: 147-149. (核心)

44. 张广安*, 赵兴明, 王鸿健, 辛立军, 巴宏波, 周歧, 赵荣达. 挤压变形对粉末冶金Al-Si-Cu合金组织和性能的影响,特种铸造及有色合金, 2017, 37: 1186-1188. (核心)

45. 张广安*, 赵兴明, 张明昌, 王鸿健, 赵荣达, 辛立军. Al-P变质剂制备及其变质效果研究, 铸造技术, 2017, 38: 2579-2581. (核心)

46. 张广安*, 赵兴明, 赵荣达, 伍复发, 巴洪波, 周歧. 固溶温度对18Cr2Ni4W合金渗硼后组织和性能的影响, 热加工工艺, 2019, 48: 211-213. (核心)

47. 张广安*, 王鸿健, 赵兴明, 巴洪波, 赵荣达, 马光元. 时效时间对挤压快速凝固/粉末冶金Al-Si-Cu合金组织和性能的影响, 铸造技术, 2017, 38: 2840-2842. (核心)

48. 赵荣达*, 费书文, 张广安, 孟寒松, 赵兴明, 郑娅丽. 固溶温度对Fe-24Al-La合金组织和性能的影响. 特种铸造及有色合金, 2015, 35: 16-19. (核心)

Ø 研究生招生

招收具有钻研、探索和创新精神,勤于思考,踏实肯干,拥有材料科学与工程专业基础的研究生。