李才巨 博士 教授 博士生导师
Email: lcj@kust.edu.cn; lcj98@hotmail.com
云南省昆明市五华区学府路253号昆明理工大学材料科学与工程学院，650093
Professor Dr. Caiju Li
Faculty of Materials Science and Engineering
Kunming University of Science and Technology
Xuefu Road 253
Kunming 650093
China
Email: lcj@kust.edu.cn；lcj98@hotmail.com

教育背景(Education)
1. 2008.09 - 2014.06 昆明理工大学材料科学与工程学院 博士
2. 2000.09 - 2003.06 清华大学材料科学与工程系 硕士
3. 1996.09 - 2000.06 昆明理工大学科学与工程系 学士
研究方向(Research Area)
1. 铝基复合材料的制备及应用
2. 材料基因工程及新型无铅锡基焊料开发
3. 亚稳态（纳米晶、超细晶、非晶）新材料的制备及应用
工作经历(Work Experience)
1. 2012/06 - 至今，昆明理工大学，材料科学与工程学院，副教授、教授
2. 2011/07 - 2012/06，云南锡业集团(控股)有限责任公司，挂职锻炼
3. 2011/01 - 2011/07，昆明理工大学，材料科学与工程学院，副教授
4. 2010/01 - 2011/01，德国德累斯顿莱布尼茨固体与材料研究所（IFW-Dresden），复杂材料研究所，国家留学基金委公派访问****
5. 2003/07 – 2010/01，昆明理工大学，材料科学与工程学院，助教、讲师、副教授
科研项目(Scientific Research Projects)
1. 国家自然科学基金项目，**，Zr-Co-Al(-M)非晶基复合材料的组织与力学性能调控及塑韧化机理，2021/01-2024/12，在研，主持；
2. 云南省重大科技专项，202002AB080001，云南省稀贵金属材料基因工程（一期）—Sn-Zn系焊料合金的高通量制备表征及成分与性能优化，2020/01-2022/12，月，在研，主持；
3. 云南省重大科技专项，2019ZE001-3，云南省稀贵金属材料基因工程（一期），— Sn-Bi系合金的高通量制备与表征及焊料合金开发，2019/01-2021/12，在研，主持；
4. 云南省重大科技专项，2019ZE001-3，云南省稀贵金属材料基因工程（一期）—二维特色金属材料高通量制备技术与装备，2019/01-2021/12，在研，主持；
5. 云南省重大科技专项，2018ZE007，云南省稀贵金属材料基因工程（一期）—微合金化锡锌合金焊料的高通量制备开发，2018/01-2019/12，已结题，主持；
6. 云南省应用基础研究面上项目，2018FB085，复合球磨粉末冶金法制备CNTs/Al复合材料及强化机理，2018/06-2021/05，在研，主持；
7. 国家重点研发计划项目课题，2019YFC**，铝冶炼危废渣的多场协同处置与全组分利用技术集成及示范，2020/01-2022/12，在研，骨干参研；
8. 云南省教育厅科研基金重大专项（产业化培育项目），2016CYH08，先进碳纳米管增强铜基复合材料的关键制备技术与应用研究，2016/09-2019/09，已结题，骨干参研；
9. 云南省科技人才和平台计划项目，2017HC033，云南省先进粉体材料创新团队，2016/10-2019/10，已结题，核心成员；
10. 国家自然科学基金项目，**，快速凝固制备Zr-Co-(Al)合金及其变形行为与强韧化机理，2013/01-2017/12，已结题，主持；
11. 云南省应用基础研究面上项目，2011FB021，多壁碳纳米管强化铝基复合材料制备及表征，2011/10-2014/09，已结题，主持；
12. 云南省教育厅科研基金重大项目，2010Z012，机械球磨法制备多壁碳纳米管强化铝基复合材料研究，2010/10-2012/09，已结题，主持；
13. 云南省应用基础研究重大项目，2014FC001，碳纳米管增强金属基复合材料应用基础研究，2014/10-2017/09，已结题，骨干参研；
14. 国家自然科学基金项目，**，大块金属玻璃微观结构演变的原位同步辐射研究，2013/01-2016/12，已结题，骨干参研.
教改项目(Educational ReformResearch Projects)
1. 教育部新工科研究与实践项目，E-CL**，面向行业和区域需求的材料类工程应用型创新人才培养模式的探索与实践，2020/10-2022/09，在研，第二负责人；
2. 云南省省级教改项目，，云南省高等学校卓越青年教师特殊培养项目，2015/09-2018/08，已结题，主持.
近年代表性文章(Selected Publications)
2021
[1] Y.Z. Peng, C.J. Li^*, J.J. Yang, J.T. Zhang, J.B. Peng^*, G.J. Zhou, C.J. Pu, J.H. Yi^*. Effects of Bismuth on the Microstructure, Properties, and Interfacial Reaction Layers of Sn-9Zn-xBi Solders. Metals, 2021, 11 (4): 538.
[2] C. Geng, Y. Jia^*, X. Ma, Y. Jia, Y. Mu, G. Wang, C. Li^*, J. Peng, Q. Bao. Mechanical properties and oxidation resistance of Sn-Zn-xCu (2.3≤x≤20.2) solder alloys prepared by high-throughput strategy. Manufacturing Letters, 2021, 27: 47-52.
[3] M. Li, J. Tan^*, X.M. Qin, D.H. Lu, Z. X. Feng, C.J. Li, S.V. Ketov, M. Calin, J. Eckert^*. Correlation between internal states and creep resistance in metallic glass thin films. Journal of Applied Physics, 2021, 129: 085302.
2020
[1] Z.Y. Xu, C.J. Li^*, Z. Wang, D. Fang, P. Gao, J.M. Tao, J.H. Yi^*, J. Eckert. Balancing the strength and ductility of graphene oxide-carbon nanotube hybrid reinforced aluminum matrix composites with bimodal grain distribution. Materials Science and Engineering A, 2020, 796:140067.
[2] N.Y. Li, C. Yang, C.J. Li^*, H.D. Guana, D. Fang, J.M. Tao, Y.C. Liu, J.H. Yi^*. Carbon nanotubes reinforced aluminum matrix composites with high elongation prepared by flake powder metallurgy. Diamond & Related Materials. 2020, 107: 107907.
[3] X.Q. Liu, C.J. Li^*, X. You, Z.Y. Xu, X. Li, R. Bao, J.M. Tao, J.H. Yi^*. Size-dependent effects of Ti powders in the pure aluminum matrix composites reinforced by carbon nanotubes. Journal of Alloys and Compounds, 2020, 823: 153824.
[4] H.D. Guan, C.J. Li^*, P. Gao, K.G. Prashanth, J. Tan, J. Eckert, J.M. Tao, J.H. Yi^*. Aluminum matrix composites reinforced with metallic glass particles with core-shell structure. Materials Science and Engineering: A, 2020, 771: 138630.
[5] H. D. Guan, C.J. Li^*, P. Gao, J. H. Yi^*, R. Bao, J. M. Tao, D. Fang, Z. X. Feng. Fe-based metallic glass particles reinforced Al-7075 matrix composites prepared by spark plasma sintering. Advanced Powder Technology, 2020, 31: 3500-3506.
[6] K.R. Li, W.F. Lu, C.J. Li^*, D. ？opu, B. Sarac, J.H. Yi, J. Tan, P. Gao, J. Eckert. Stability, elasticity and electronic structures of Co-Zr binary intermetallic compounds. Philosophical Magazine, 2020, 100 (7): 874-893.
[7] 关洪达, 李才巨^*, 高鹏, 彭巨擘, 李芳, 鲍庆煌, 关一凡, 易健宏. 材料高通量制备与表征技术研究进展.稀有金属材料与工程, 2019,48(12): 4131-4140.
[8] D. Qu, C. Li, L. Bao, Z. Kong, Y. Duan^*. Structural, electronic, and elastic properties of orthorhombic, hexagonal, and cubic Cu3Sn intermetallic compounds in Sn–Cu lead-free solder. Journal of Physics and Chemistry of Solids, 2020, 138: 109253.
[9] Q. Dong, P. Song, J. Tan^*, X.M. Qin, C.J. Li, P. Gao, Z.X. Feng^*, M. Calin, J. Eckert. Non-isothermal crystallization kinetics of a Fe–Cr–Mo–B–C amorphous powder. Journal of Alloys and Compounds, 2020, 823: 153783.
[10]L. Zhang, R. Bao^*, J. Yi^*, S. Guo, J. Tao, C. Li, D. Fang, Y. Liu, F. Li. Improving comprehensive performance of copper matrix composite by spray pyrolysis fabricated CNT/W reinforcement. Journal of Alloys and Compounds, 2020, 833: 154940.
[11]A. Rezvan, B. Sarac^*, V. Soprunyuk, J.T. Kim, K.K. Song, C.J. Li, W. Schranz, J. Eckert. Influence of combinatorial annealing and plastic deformation treatments on the intrinsic properties of Cu46Zr46Al8 bulk metallic glass. Intermetallics, 2020, 127: 106986.
2019
[1] Z.Y. Xu, C.J. Li^*, K.R. Li, J.H. Yi^*, J.J. Tang, Q.X. Zhang, X.Q. Liu, R. Bao, X. Li. Carbon nanotube-reinforced aluminum matrix composites enhanced by grain refinement and in situ precipitation. Journal of Materials Science, 2019, 54 (11): 8655-8664.
[2] Z. Xu, C. Li^*, X. Liu, J. Yi^*, H. Guan, N. Li. In situ Al₄C₃ nanorods and carbon nanotubes hybrid-reinforced aluminum matrix composites prepared by a novel two-step ball milling. Journal of Materials Research, 2019, 54 (11): 8655-8664..
[3] X. Chen, J. Tao^*, Y. Liu, R. Bao, F. Li, C. Li, J. Yi^*. Interface interaction and synergistic strengthening behavior in pure copper matrix composites reinforced with functionalized carbon nanotube-graphene hybrids. Carbon, 2019, 146: 736-755.
[4] Q. Dong, Y.J. Pan, J. Tan^*, X.M. Qin, C.J. Li, P. Gao, Z.X. Feng^*, M. Calin, J. Eckert. A comparative study of glass-forming ability, crystallization kinetics and mechanical properties of Zr55Co25Al20 and Zr52Co25Al23 bulk metallic glasses. Journal of Alloys and Compounds, 2019, 785: 422-428.
[5] K. Hua, D. Fang^*, R. Bao, X. You, J. Tao, C. Li, Y. Liu, Z. Luo, J. Yi, Y. Shu. Porous iron vanadate nanowire arrays on Ti foil as a high-performance lithium-ion battery. Applied Surface Science, 2019, 465: 1047-1054.
[6] X. Wei, J. Tao^*, Y. Liu, R. Bao, F. Li, D. Fang, C. Li, J. Yi. High strength and electrical conductivity of copper matrix composites reinforced by carbon nanotube-graphene oxide hybrids with hierarchical structure and nanoscale twins. Diamond and Related Materials, 2019, 99: 107537.
[7] 赵琪, 马俊宾, 谢明, 李才巨, 陶静梅, 鲍瑞, 刘意春^*, 易健宏. 复合金属包覆碳纳米管的制备及电磁屏蔽性能. 稀有金属材料与工程, 2019, 48 (01): 249-253.
2018
[1] X.Q. Liu, C.J. Li^*, J.H. Yi^*, K.G. Prashanth, N. Chawake, J.M. Tao, X. You, Y.C. Liu, J. Eckert. Enhancing the interface bonding in carbon nanotubes reinforced Al matrix composites by the in situ formation of TiAl3 and TiC. Journal of Alloys and Compounds, 2018, 765: 98-105.
[2] W. Lu, C. Li^*, J. Yi, K. Li. Stability and elastic properties of B2 CoX (X=Ti, Zr and Hf) intermetallic compounds as a function of pressure. Philosophical Magazine, 2018, 98 (3): 203-218.
[3] X. Chen, J. Tao^*, J. Yi, C. Li, R. Bao, Y. Liu, X. You, S. Tan. Balancing the strength and ductility of carbon nanotubes reinforced copper matrix composites with microlaminated structure and interdiffusion interface. Materials Science and Engineering: A, 2018, 712: 790-793.
[4] X. Chen, J. Tao^*, J. Yi, Y. Liu, C. Li, R. Bao. Strengthening behavior of carbon nanotube-graphene hybrids in copper matrix composites. Materials Science and Engineering: A, 2018, 718: 427-436.
[5] X. Chen, J. Tao^*, J. Yi, Y. Liu, R. Bao, C. Li. Electrodeposited Cu/buckypaper composites with high electrical conductivity and ampacity. Journal of Alloys and Compounds, 2018, 735 (Supplement C): 163-171.
[6] X. Chen, J. Tao^*, J. Yi, Y. Liu, R. Bao, C. Li, S. Tan, X. You. Enhancing the strength of carbon nanotubes reinforced copper matrix composites by optimizing the interface structure and dispersion uniformity. Diamond & Related Materials, 2018, 88: 74-84.
[7] P. Yang, X. You^*, J. Yi^*, D. Fang, R. Bao, T. Shen, Y. Liu, J. Tao, C. Li, S. Tan, S. Guo. Simultaneous achievement of high strength, excellent ductility, and good electrical conductivity in carbon nanotube/copper composites. Journal of Alloys and Compounds, 2018, 752: 431-439.
[8] P. Yang, X. You^*, J. Yi^*, D. Fang, R. Bao, T. Shen, Y. Liu, J. Tao, C. Li. Influence of dispersion state of carbon nanotubes on electrical conductivity of copper matrix composites. Journal of Alloys and Compounds, 2018, 752: 376-380.
[9] 赵琪，马俊，谢明，李才巨，陶静梅，鲍瑞，刘意春^*，易健宏. 超声喷雾化学镀法制备镀镍碳纳米管及其微波吸收性能[J] 复合材料学报，2018, 35 (1): 117-123.
2017
[1] X. Liu, C. Li^*, J. Eckert, K.G. Prashanth, O. Renk, L. Teng, Y. Liu, R. Bao, J. Tao, T. Shen, J. Yi^*. Microstructure evolution and mechanical properties of carbon nanotubes reinforced Al matrix composites. Materials Characterization, 2017, 133: 122-132.
[2] C.J. Li^*, W.F. Lu, J. Tan, J.M. Tao, J.H. Yi, Q.X. Zhang, Y. Xi. Microstructure and mechanical properties of Zr-Co-Al alloys prepared by rapid solidification. Journal of Materials Research. 2017, 32 (13): 2570-2577.
[3] W.F. Lu, C.J. Li^*, B. Sarac, D. ？opu, J.H. Yi, J. Tan, M. Stoica, J. Eckert. Structural, elastic and electronic properties of CoZr in B2 and B33 structures under high pressure. Journal of Alloys and Compounds, 2017, 705: 445-455.
[4] A. Shen, D. Zhao, W. Sun, J. Liu^*, C. Li^*. Elastocaloric effect in a Co₅₀Ni₂₀Ga₃₀ single crystal. Scripta Materialia, 2017, 127: 1-5.
[5] L. Liu, R. Bao^*, J. Yi^*, C. Li, J. Tao, Y. Liu, S. Tan, X. You. Well-dispersion of CNTs and enhanced mechanical properties in CNTs/Cu-Ti composites fabricated by Molecular Level Mixing. Journal of Alloys and Compounds, 2017, 726: 81-87.
[6] B. Cheng, R. Bao^*, J. Yi^*, C. Li, J. Tao, Y. Liu, S. Tan, X. You. Interface optimization of CNT/Cu composite by forming TiC nanoprecipitation and low interface energy structure via spark plasma sintering. Journal of Alloys and Compounds, 2017, 722: 852-858.
2016
[1] C. Li^*, X. Liu, J. Yi^*, L. Teng, R. Bao, J. Tan, C. Yang, Z. Zou. Effects of sintering parameters on the microstructure and mechanical properties of carbon nanotubes reinforced aluminum matrix composites. Journal of Materials Research, 2016, 31 (23): 3757-3765.
[2] 郗旸, 张淇萱, 李才巨^*, 谭军, 朱心昆, 王刚, 易健宏. Mo 离子注入对纯铜表面纳米层稳定性的影响. 材料工程, 2016, 44 (8): 40-45.
[3] 杨超, 李才巨^*, 易健宏, 邹舟, 鲍瑞, 朱心昆. 碳纳米管在铝基复合材料中分散的研究进展. 材料导报, 2016, 30 (9): 141-147.
[4] 李翠红, 李才巨^*, 易健宏, 鲍瑞, 邹舟, 沈韬, 陶静梅, 刘意春. MWCNTs特征对MWCNTs/Al复合材料组织及性能的影响. 粉末冶金材料科学与工程, 2016, 21 (3): 508-514.
2015
[1] X.M. Qin, J. Tan^*, C.J. Li, X.C. Wang, Y.H. Jiang, R. Zhou. On the formation, mechanical properties and crystallization behaviors of a Zr56Co24Al20 bulk metallic glass. Journal of Alloys and Compounds, 2015, 647: 204-208.
[2] 易健宏^*, 鲍瑞, 李才巨, 沈韬, 刘意春, 陶静梅, 谈松林, 游昕. 碳纳米管增强Cu、Al基复合材料的研究进展. 中国有色金属学报, 2015, 25 (5): 1209-1219.
[3] 邢忠义^*, 李才巨. 新型汽车发动机用纳米铜的磨损机制分析. 铸造技术, 2015, 36 (2): 290-292.
2014
[1] 滕龙, 李才巨^*, 袁倩, 张淇萱, 郗旸, 李翠红, 鲍瑞, 朱心昆. 碳纳米管增强铜基复合材料的研究进展. 材料导报, 2014, 28 (7): 16-19.
[2] J.M. Tao, M.C. Xu, C.J. Li, X.K. Zhu^*. Influence of plastic deformation on evolution of defect structures, microhardness and electrical conductivity of copper. Materials Technology, 2014, 27 (1): 197-202.
[3] B. Cai, Y. Long, C. Wen, Y. Gong, C. Li, J. Tao, X. Zhu^*. Role of stacking fault energy and strain rate in strengthening of Cu and Cu–Al alloys. Journal of Materials Research, 2014, 29 (16): 1747-1754.
2013
[1] C.J. Li, J. Tan*, G. Wang, J. Bednar？ík, X.K. Zhu, Y. Zhang, M. Stoica, U. Kühn, J. Eckert. Enhanced strength and transformation-induced plasticity in rapidly solidified Zr-Co-(Al) alloys. Scripta Materialia, 2013, 68: 897–900.
[2] C.J. Li, J. Tan*, X.K. Zhu, Y. Zhang, M. Stoica, U. Kühn, J. Eckert. On the transformation-induced work-hardening behavior of Zr47.5Co47.5Al5 ultrafine-grained alloy. Intermetallics, 2013, 35: 116-119.
[3] C.J. Li^*, Q.X. Zhang, Q. Yuan, J. Tan, L. Teng, G. Chen, T.L. Chen. Nanocrystalline Cu₉₀Nb₁₀ Alloy Produced by Mechanical Alloying, the 3rd International Conference on Advanced Engineering Materials and Technology (AEMT 2013), Zhangjiajie, P. R. China, 2013, 5.11-5.12
[4] 崔黎辉，沈俊昶，苏航，李才巨^*. 10CrNi3MoV薄板性能研究热加工工艺. 2013, 42(6): 51-53.
[5] 崔黎辉，沈俊昶，苏航，田景云，李才巨^*. 10CrNi3MoV钢焊接接头低温韧性的研究，热加工工艺，2013, 42(2): 191-195.
[6] J. Tan^*, F.S. Pan, C.J. Li, J.F. Wang, J. Eckert. Effect of Fe on Crystallization Process of Zr-Co-Al-(Fe) Bulk Metallic Glasses. Materials Science Forum, 2013, 745-746: 734-739.
[7] X.X. Wu, X.Y. San, Y.L. Gong, L.P. Chen, C.J. Li, X.K. Zhu^*. Studies on strength and ductility of Cu–Zn alloys by stress relaxation. Materials & Design, 2013, 47 (9): 295-299.
2012
[1] 汤金金, 李才巨^*, 朱心昆. 碳纳米管增强铝基复合材料的界面研究进展. 材料导报, 2012, 26 (11): 149-152.
[2] X.Y. San, X.G. Liang, L.P. Cheng, C.J. Li, X.K. Zhu^*. Temperature effect on mechanical properties of Cu and Cu alloys. Materials & Design, 2012, 35: 480-483.
2011
[1] C.J. Li^*, X.K. Zhu, J.M. Tao, H.L. Tang, T.L. Chen. Bulk nanocrystalline Cu produced by high-Energy ball milling. Materials Science Forum, 2011, 682: 25-32.
[2] J.M. Tao, D. Li, C.J. Li, X.K. Zhu ^*. Influence of stacking fault energy on defect structures and microhardness of Cu and Cu alloys. Journal of Nanoscience & Nanotechnology, 2011, 11 (12): 10967.
[3] J. Tan ^*, Y. Zhang, B.A. Sun, M. Stoica, C.J. Li, K.K. Song, U. Ku？hn, F.S. Pan, J. Eckert. Correlation between internal states and plasticity in bulk metallic glass. Applied Physics Letters, 2011, 98 (15): 151906.
近年授权专利(Authorized Patents)
授权发明专利
[1] 李才巨，李旷然，易健宏，高鹏；一种石墨烯增强高熵合金复合材料及其制备方法，2020-10-13，中国，ZL9.8.
[2] 李才巨，李芳，卢文飞，易健宏，谭军；一种耐低温高强高韧合金，2020-7-31，中国，ZL8.4.
[3] 李才巨，李雪，高鹏，易健宏，李宁宇；一种定向排列碳纳米管增强铝基复合线材的制备方法，2021-2-9，中国，ZL1.4.
[4] 李才巨，徐尊严，秦博，易健宏，鲍瑞，高鹏；一种耐磨减摩铝基复合材料，2020-10-13，中国，ZL9.8.
[5] 李才巨，关洪达，易健宏，徐尊严，李宁宇；一种复相增强铝基复合材料的制备方法，2020-10-13，中国，ZL7.X.
[6] 李才巨，关洪达，易健宏，徐尊严，李宁宇；一种镀镍非晶合金颗粒增强铝基复合材料的制备方法，2020-10-13，中国，ZL8.4.
[7] 李才巨，卢文飞，易健宏，郗旸；一种Zr-Co-Nb-Al高温合金，2020-9-25，中国，ZL6.5.
[8] 李才巨，杨超，易健宏，沈韬，鲍瑞，刘意春，陶静梅，谈松林，游昕，李凤仙；一种碳纳米管增强铝基多层复合材料的制备方法, 2017-5-31, 中国, ZL8.1.
[9] 李才巨，刘孝青，易健宏，汤金金，朱心昆，陶静梅；一种碳纳米管增强铝基复合材料的制备方法，2017-5-31，中国，ZL7.7.
[10]李才巨，谭军，袁倩，朱心昆；一种蓝宝石晶体用高纯氧化铝的提纯方法，2016-3-30，中国，ZL6.5.
[11]李才巨，朱心昆，赵昆渝，陶静梅，陈铁力；利用机械合金化制备(TiB₂+TiC)弥散强化铜基复合材料的方法，2012-5-30，中国，ZL9.2.
[12]朱心昆，李才巨，赵昆渝，颜丙勇，陶静梅，陈铁力；机械合金化合成制备二硼化钛弥散强化铜基复合材料的方法，2012-1-11，中国，ZL6.9
[13]鲍瑞，刘亮，易健宏，李才巨，刘意春，李凤仙，陶静梅，游昕，谈松林；一种光催化用负载纳米氧化亚铜颗粒的碳纳米管-石墨烯材料的制备方法，2019-04-09, 中国，ZL7.6.
[14]刘意春，汪从珍，马俊宾，李才巨，鲍瑞，陶静梅，谈松林，游昕，方东，易健宏；泡沫金属铜掺杂碳纳米管电磁屏蔽材料及制备方法，2021-2-19，中国, ZL0.9.
[15]鲍瑞，郑佳，易健宏，沈韬，李才巨，刘意春，游昕，谈松林，李凤仙，张家敏；一种微波烧结制备碳纳米管增强铜基复合材料的方法，2017-10-27，中国，ZL0.0
[16]陶静梅，陈小丰，易健宏，鲍瑞，李才巨，刘意春，游昕，谈松林，李凤仙；一种碳纳米管增强铜基复合材料的制备方法，2019-07-05，中国，ZL5.0
[17]易健宏，刘警峰，张正富，甘国友，李才巨，鲍瑞，刘意春；一种纳米花状锂离子电池负极材料的制备方法，2020-4-7，中国，ZL20**
[18]刘意春，赵琪，谢明，贾璐，沈韬，李才巨，鲍瑞，陶静梅，谈松林，游昕，易健宏；一种碳纳米管表面均匀包覆金属银的方法及装置，2019-2-19，中国，ZL2.5
[19]刘意春，赵琪，谢明，贾璐，沈韬，李才巨，鲍瑞，陶静梅，谈松林，游昕，？易健宏；一种制备纳米银的方法，2019-1-4，中国，ZL2.5
[20]陶静梅，魏霞，易健宏，鲍瑞，刘意春，李凤仙，李才巨，游昕，谈松林；一种具有层级结构的CNT-GO/Cu复合材料的制备方法，2020-12-15，中国, ZL7.7.
[21]陶静梅，王梦圆，易健宏，刘意春，鲍瑞，李凤仙，李才巨，游昕，谈松林；一种层状碳纳米管增强铜基复合材料的制备方法，2020-12-15，中国, ZL8.1.
[22]陶静梅，刘贵君，易健宏，鲍瑞，刘意春，李凤仙，李才巨，游昕，谈松林；一种裂解碳纳米管增强铜基复合材料的制备方法，2020-7-31，中国, ZL5.0.
[23]刘意春，汪从珍，马俊宾，陶静梅，鲍瑞，谈松林，游昕，方东，李才巨，易健宏；一种多孔泡沫增强金属复合材料及其制备方法，2020-3-24，中国，ZL4.X.
授权实用新型专利
[1] 李才巨，邢辕，周广吉，易健宏；一种模块化巷道回填封堵装置，2021-1-22，中国，ZL0.X.
[2] 李才巨，李宁宇，易健宏，高鹏；一种合金棒材高通量连续制备装置，2020-8-14，中国，ZL7.7.
[3] 李才巨，周广吉，易健宏，高鹏，李宁宇；一种低熔点金属高通量熔炼装置，2020-8-14，中国，ZL8.6.
[4] 李才巨，邢辕，易健宏，高鹏，李宁宇；一种抽屉式低熔点金属高通量熔炼装置，2020-8-14，中国，ZL5.8.
[5] 李才巨，卢文飞，易健宏，郗旸，滕龙，张淇萱，邹舟，李小红，马玉琼；一种用于柱状试样磨抛的夹具，2016-9-14，中国，ZL5.4
[6] 刘意春，赵琪，谢明，贾璐，沈韬，李才巨，鲍瑞，陶静梅，谈松林，张家敏，易健宏；一种碳纳米管表面均匀包覆金属银的装置，2017-5-3，中国，ZL2.X，
[7] 符泽卫，陈援，李才巨，徐顺利，李楠，吴红昆，李翔，邹成彦；一种新型的蓝宝石切割设备，2013-5-29，中国，ZL4.4
[8] 宁德魁，陈援，符泽卫，李才巨，张超，祝建华，吴红昆，隋忠明，柏昌坤，李慧，陈亮；一种新型的高纯氧化铝预处理坩埚，2012-12-5，中国，ZL9.7
[9] 宁德魁，王安全，陈援，梁有国，李才巨，吴晓英，李翔，曾旭东，吴红昆，邹杰，符泽卫；一种新型的蓝宝石晶锭掏棒机，2013-10-2，中国，ZL8.1
[10]陈援，符泽卫，李翔，邹成彦，李才巨，宁德魁，邹杰，吴红昆；一种新型的蓝宝石研磨机，2013-7-31，中国，Z L3.X
[11]符泽卫，陈援，宁德魁，吴红昆，李翔，李才巨，隋忠明，邹杰，彭巨擘，邹成彦；一种高效的蓝宝石掏棒刀具，2013-5-29，中国，ZL3.8
[12]郭绍雄，张家涛，李季，彭巨擘，何棋，贾元伟，李才巨，邱家龙，彭言之；一种预成型焊片涂覆助焊剂用载具，2020-6-16，中国，ZL3.X.