陈 琳 硕士生导师
陈琳,昆明理工大学高层次引进人才(三层次)、特聘教授、硕导,担任国防重点学科与技术研究中心和教育部重点实验室副主任,主要进行超高温热防护涂层的研究,课题方向包括结构陶瓷、热防护涂层、金属腐蚀与防护、纳米材料/力学等,多项核心技术被评为“国际领先”。曾获得中国稀土科学技术发明一等奖、中国发明协会一等奖、云南省教学成果奖二等奖、日内瓦发明展国际金奖和中国国际“互联网+”大赛国家银奖(2项)等奖励。截止2025年8月在Prog. Mater. Sci. (IF=33.6)、Acta Mater.、J. Adv. Ceram.(IF=16.6)、欧陶JECS、美陶JACerS和Appl. Phys. Lett.等国际顶级期刊发表论文80余篇,其中IF>10的文章20篇,相关研究成果被Science等期刊引用2400余次,H因子27。授权国家发明专利39项、美国专利4项、欧盟专利3项、日本专利3项。担任中国稀土学会热防护材料分会秘书长、专家库专家、青委会委员和Coatings及Mater. LAB期刊客座主编等学术兼职,入选J. Adv. Ceram.、Rare Metals、Adv. Powder Mater.、J. Rare Earth和《中国表面工程》等10个期刊青年编委,兼任Acta Mater.、Adv. Funct. Mater.、J. Adv. Ceram.、Adv. Sci.、JECS、JACerS等30余个期刊审稿人。在先进陶瓷国际研讨会、中国材料大会、全国高技术陶瓷学术年会、中国稀土学会学术年会等进行邀请报告20余次。指导的博士、硕士研究生及本科生获得国家奖学金、省政府奖学金、省级优秀毕业生、昆明理工大学十佳大学生等奖励/荣誉30余次。
工作与教育经历:
2024.9---至今,昆明理工大学,特聘教授、硕士生导师
2018.6-2020.8,昆明理工大学,实验员
2020.9-2024.6,昆明理工大学,博士研究生
2015.9-2018.6,昆明理工大学,硕士研究生
2011.8-2015.7,西安理工大学,本科
主持/参与项目:
1. 昆明理工大学三层次人才陈琳博士科研平台建设经费,500万,主持、在研
2. 国家自然科学基金:稀土钽酸盐RETaO4陶瓷的抗CMAS腐蚀性能及微纳界面结构演变机制研究,30万,主持、在研
3. ZYJW装备发展部“慧眼行动”专项,200万,排2,在研
4. 中国航发重点专项,第XX单晶叶片高结合力、低导热涂层,73万,排2,在研
5. 云南省科技厅“双创”专项,10万,主持、在研
6. 金属材料强度全国重点实验室开放课题,主持、在研
7. 先进耐火材料国家重点实验室开放课题,主持、在研
8. 中国航发重大专项,钽酸盐涂层涂覆工艺研究,366万,排2,结题
9. 国防科技创新特区专项,耐低熔点氧化物腐蚀钽酸盐研制,150万,排2,结题
10. 国资委“1025”卡脖子专项,超高温钽酸盐热障涂层材料研究,775万,参与,结题
代表性科研成果:
1. L. Chen, B.H. Li, J. Feng. Rare-earth tantalates for next-generation thermal barrier coatings. Prog. Mater. Sci. 144 (2024) 101265. (IF=33.6,ESI高被引论文)
2. L. Chen, M. Y. Hu, J. K. Wang, B. H. Li, J. Feng. Dominant mechanisms of thermo-mechanical properties of weberite-type RE3TaO7 (RE = La, Pr, Nd, Eu, Gd, Dy) tantalates toward multifunctional thermal/environmental barrier coating applications. Acta Mater. 270 (2024) 119857.
3. L. Chen, M.Y. Hu, X.D. Zheng, Jing Feng. Characteristics of ferroelastic domains and thermal transport limits in HfO2 alloying YTaO4 ceramics. Acta Mater. 251 (2023) 118870.
4. L. Chen, M.Y. Hu, J. Feng*. Defect-dominated phonon scattering processes and thermal transports of ferroelastic (Sm1-XYbX)TaO4 solid solutions. Mater. Today Phys. 35 (2023) 101118. (IF=10.0)
5. L. Chen, J.K. Wang, B.H. Li, K.R. Luo, J. Feng*. Simultaneous manipulations of thermal expansion and conductivity in symbiotic ScTaO4/SmTaO4 composites via multiscale effects. J. Adv. Ceram. 12 (2023) 1625-1640. (IF=16.6,期刊封面论文)
6. L. Chen, J.K. Wang, L.Y. Zhang, B.H. Li, K.R. Luo, J. Tian, H. Xu, J. Feng*. Rare-earth tantalates RETaO4 toward multifunctional thermal/environmental barrier coatings (T/EBCs): A perspective. J. Am. Ceram. Soc. 106 107 (2024) 1822-1834. (美国陶瓷协会陶瓷领域世纪开拓者邀请专刊)
7. Z.Y. Wei, G.H. Meng, L. Chen (Co-first author), et al. Progress in ceramic materials and structure design toward advanced thermal barrier coatings. J. Adv. Ceram. 11 (2022) 985-1068. (IF=16.6,ESI高被引论文,期刊优秀论文BEST PAPER AWARD)
8. L. Chen, B.H. Li, J. Guo, et al. High-entropy perovskite RETa3O9 ceramics for high-temperature environmental/thermal barrier coatings. J. Adv. Ceram. 11 (2022) 556-569. (IF=16.6,ESI高被引论文,期刊优秀论文BEST PAPER AWARD)
9. L. Chen, M.Y. Hu, P. Wu, J. Feng*, Thermal expansion performance and intrinsic lattice thermal conductivity of ferroelastic RETaO4 ceramics. J Am Ceram Soc. 2019;102: 4809-4821.
10. L. Chen, Y.H. Jiang, X.Y. Chong, J. Feng*, Synthesis and thermophysical properties of RETa3O9 (RE = Ce, Nd, Sm, Eu, Gd, Dy, Er) as promising thermal barrier coatings. J. Am. Ceram. Soc., 2018; 101: 1266-1278.
11. L. Chen, P. Wu, P. Song, J. Feng*, Potential thermal barrier coating materials: RE3NbO7 (RE=La, Nd, Sm, Eu, Gd, Dy) ceramics. J. Am. Ceram. Soc., 2018; 101: 4503-4508.
12. L. Chen, K.R. Luo, B.H. Li, M.Y. Hu, J. Feng*. Mechanical property enhancements and amorphous thermal transports of ordered weberite-type RE3Nb/TaO7 high-entropy oxides. J. Adv. Ceram. 12 (2023) 399-413. (IF=16.6)
13. L. Chen, B.H. Li, K.R. Luo, et al. Origins of high fracture toughness and glass-like thermal conductivity in Zr–Ta–O composites. J. Am. Ceram. Soc. 105 (2022) 6508-6516.
14. L. Chen, Y.T. Wang, M.Y. Hu, J. Feng*, et al. Achieved limit thermal conductivity and enhancements of mechanical properties in fluorite RE3NbO7 via entropy engineering. Appl. Phys. Lett. 118 (2021) 071905.
15. L. Chen, J. Guo, Y.K. Zhu, M.Y. Hu, J. Feng, Features of crystal structures and thermo-mechanical properties of weberites RE3NbO7 (RE=La, Nd, Sm, Eu, Gd) ceramics. J. Am. Ceram. Soc. 104 (2021) 404-412.
16. L. Chen, M.Y. Hu. J. Guo, X.Y. Chong, J. Feng*, Mechanical and thermal properties of RETaO4 (RE = Yb, Lu, Sc) ceramics with monoclinic-prime phase. J. Mater. Sci. Technol. 52 (2020) 20-28. (IF=14.3)
17. L. Chen, Jing Feng*, Influence of HfO2 alloying effect on microstructure and thermal conductivity of HoTaO4 ceramics. J. Adv. Ceram., 2019; 8: 537-544. (IF=16.6)
18. L. Chen, J Feng*, Thermal and mechanical properties optimization of ABO4-type EuNbO4 by B site substituted Ta. Eng. 6 (2020) 178-185. (IF=11.6)
19. L. Chen, P. Song, J. Feng*, Influence of ZrO2 alloying effect on the thermophysical properties of fluorite-type Eu3TaO7 ceramics. Scripta Mater., 152 (2018) 117-121.
20. B.H Li, L. Chen* (Corresponding author), M.Y. Hu, et al. Ferroelastic tetragonal-monoclinic phase transition and anisotropic thermal expansion of LuNbO4 ceramics. Scripta Mater. 228 (2023) 115258.
21. J. K. Wang, L. Chen* (Corresponding author), B. H. Li, et al. Evolutions of mechanical and thermal properties of TmNbO4/Tm3NbO7 composites as protective coating materials. J. Adv. Ceram. 13 (2024) 1771-1785. (IF=16.6)
22. J. Tian, L. Chen* (Corresponding author), X. L. Chen, et al. Regulation of crystal and microstructures of RETaO4 (RE = Nd, Sm, Gd, Ho, Er) powders synthesized via co-precipitation. J. Rare Earths 43 (2025) 1246-1255.
23. K.R. Luo, L. Chen* (Corresponding author), B.H. Li, et al. Composition-structure-property synergistically tailoring of Zr-Y-Ta-O oxides as candidate abradable seal coatings materials. J. Eur. Ceram. Soc. 43 (2023) 5347-5358.
24. B.H. Li, L. Chen* (Corresponding author), K.R. Luo, et al. Synthesis and thermophysical properties of ATa2O6 (A = Co, Ni, Mg, Ca) tantalates with robust CMAS resistance. J. Am. Ceram. Soc. 105 (2022) 4840-4858.
25. L.Y. Zhang, K.R. Luo, L. Chen* (Corresponding author), et al., A4Ta2O9 (A=Ca, Mg) tantalate as novel thermal barrier coatings materials with superior calcium-magnesium-alumino-silicate corrosion resistance. J. Eur. Ceram. Soc. 45 (2025) 117090.
26. L.Y. Zhang, L. Chen* (Corresponding author), J.K. Wang, et al., High entropy engineering boosts thermo-mechanical properties of rare-earth tantalates: Influences of cocktail effects. J. Materiomics 11 (2025) 100984.
27. X.L. Chen, L. Chen* (Corresponding author), J. Tian, et al., Thermal/mechanical properties of MO2 (M = Ti, Zr, Hf) co-doped YTaO4 medium entropy ceramics. Int. J. Min. Met. Mater. 32 (2025) 1441-1450.
28. G.Y. Xue, L. Chen* (Corresponding author), J.K. Wang, et al., Large atomic displacements act as dominators for reducing thermal conductivity in Y3-xAxNbO7 (A = Ca, In, Mg, Al; x = 0.05, 0.1) fluorites. Appl. Phys. Lett. 125 (2024) 171902.
29. X. Jiang, L. Chen* (Corresponding author), D. Zhang, et al., Nanomechanical properties of RENbO4 (RE = La, Gd, Dy, Y, Yb) ceramics: A comprehensive investigation by nano indentation. J. Am. Ceram. Soc. 108 (2025) 20188.
30. G.Y. Xue, L. Chen* (Corresponding author), L.Y. Zhang, et al., Typical structures and thermal expansion coefficients of ABO4-type (A=Ga, In, Cr; B=Nb, Ta) oxides as EBC candidates. Ext. Mater. 1 (2025) 1-8. (Significant Award to Extreme Materials)
31. 陈琳,冯晶。铁弹性稀土钽酸盐RETaO4陶瓷的热物理性质研究进展。实验流体力学,36 (2022) 56-76.
32. 周星,陈琳* (通讯作者),李晨宇等. RETa3O9钽酸盐陶瓷的纳米力学性能研究. 中国材料进展,44 (2025) 235-244.
33. 陈琳,冯晶. 稀土钽酸盐RE3TaO7和RETa3O9陶瓷热-力学性质研究进展. 现代技术陶瓷,40 (2019) 369-399.
[1] 授权美国专利:Jing Feng, Lin Chen, Xiaoyu Chong, Jianyu Li, Jianbo Song, Luyang Zhang, Jiankun Wang; UAV SURFACE COATING, PREPARATION METHOD THEREOF AND UAV (US2024/0263314A1)
[2] 授权美国专利:Jing Feng, Lin Chen, Xiaoyu Chong, Jun Wang. RARE EARTH TANTALAE CERAMIC RESISTING CORROSION OF LOW MELTING POINT OXIDE AND PREPARATION METHOD THEREFOR. (US2022/0144705 A1)
[3] 授权日本专利:冯晶,陈琳,种晓宇;一种抗低熔点氧化物腐蚀的稀土钽酸盐陶瓷及其制备方法 (特许第7412019号)
[4] 授权日本专利:冯晶,周云轩,种晓宇,吴鹏,陈琳,汪俊;一种高韧性高熵稀土钽酸盐陶瓷及其制备方法 (特许第7303332号)
[5] 授权美国专利:Jing Feng, Fushuo Wu, Qi Zheng, Kailong Yang, Chao Li, Peng Song, Xiaoyu Chong, Zhenhua Ge, Lin Chen, Jun Wang. ULTRALIMIT ALLOY AND PREPARATION METHOD THEREFOR (US11530485B2)
[6] 授权国家发明专利:陈琳,冯晶,李柏辉等;一种高熵稳定稀土钽酸盐/铌酸盐陶瓷及其制备方法;ZL202110769898.9
[7] 授权国家发明专利:陈琳,冯晶,李柏辉等;一种超低温烧结制备纳米晶A2B4O9型铌酸盐陶瓷及其方法;ZL202110480394.5
[8] 授权国家发明专利:陈琳,冯晶,罗可人等;一种多相组成的钽/铌酸盐复合陶瓷及其制备方法;ZL202110924522.0
[9] 授权国家发明专利:陈琳,冯晶,李振军等;一种高韧性无相变低热导钽酸盐陶瓷材料的制备方法;ZL202210553966.2
[10] 授权国家发明专利:陈琳,冯晶,王建坤等;一种两相钽酸钙陶瓷及其制备方法;ZL202110954052.2
[11] 授权国家发明专利:陈琳,冯晶,王建坤等;一种两相钽酸钴陶瓷块体及其制备方法;ZL202110954053.7
[12] 授权国家发明专利:陈琳,冯晶;一种与低熔点氧化物快速反应且抗渗透的陶瓷材料制备方法;ZL202210419555.4
[13] 授权国家发明专利:陈琳,冯晶,种晓宇;一种稀贵金属铌合金梯度材料及其制备方法;ZL202210424186.8
[14] 授权国家发明专利:冯晶,陈琳,王建坤;一种结合高温高压烧结制备的双相高熵陶瓷及其制备方法;2023年;中国;ZL202210546799.9
[15] 授权国家发明专利:冯晶,陈琳,罗可人;一种共生双相高熵陶瓷及其制备方法与应用;ZL202210460025.4
[16] 授权国家发明专利:冯晶,陈琳,李柏辉等;一种高熵同时稳定A位和B为阳离子的稀土锆酸盐陶瓷及其制备方法;ZL202110925857.4
获得奖励:
1.2024,中国稀土科学技术一等奖
2.2022,中国发明协会一等奖
3.2022,云南省教学成果奖二等奖
4.2024,中国技术市场协会金桥奖一等奖
5.2024,中国有色金属工业科学技术奖二等奖
6.2023,日内瓦国际发明展金奖
7.2025,《先进陶瓷(英文)》Journal of Advanced Ceramics (IF=16.6)“青瓷奖”
8.2025,Journal of Advanced Ceramics BEST PAPER AWARD
9.2025,Extreme Materials Significant Contribution
10.2025,Coatings Early Career Investigator Award
11.2025,Wiley Top Cited Article (Journal of the American Ceramic Society)
12.2024,Rare Metals杰出青年编委、Excellent Emerging Investigator
13.2024,《中国稀土学报》杰出青年编委
14.2023,《中国稀土学报》优秀青年编委
15.2025,《热喷涂技术》优秀青年编委
16.2024,“中国大学生自强之星”科创团队,负责人
17.2021,第五届冲压发动机内外流耦合研讨会优秀论文
18.2021,第八届“创青春”中国青年创新创业大赛(科技创新专项)国家铜奖
19.2020,第六届中国国际“互联网+”大学生创新创业大赛国家银奖、云南总冠军
20.2022,第十三届中国大学生创业计划竞赛国家铜奖、云南省金奖
21. 2022, 第八届中国国际“互联网+”大学生创新创业大赛国家银奖(指导教师)
22.2023,第十五届环太平洋科学家论坛(PACRIM15)暨第十三届先进陶瓷国际论坛(CICC-13)EXCELLENT VOLUNTEER AWARD
23.2022,第十二届先进陶瓷国际论坛(CICC-12)BEST POSTER AWARD
24.2021和2022,中国稀土学会学术年会优秀口头报告(连续两次)
25.2021,第四届先进航空发动机材料研讨会/第343场中国工程科技论坛优秀青年论文
26.2020,20-03技术研讨交流会优秀论文
研究方向:空天装备用热防护涂层、金属腐蚀与防护、纳米材料/力学
联系方式:材料楼629;chenlin_mater@kust.edu.cn; 1106846650@qq.com
谷歌学术个人网址:https://scholar.google.com.hk/citations?hl=en&user=WNStD_AAAAAJ
