1、 Qinglun Che*, Ga Zhang, Ligang Zhang, et. al, Switching Brake Materials To Extremely Wear-Resistant SelfLubrication Materials via Tuning Interface Nanostructures, ACS applied materials & interfaces, 2018(IF=8.59, Top, Q1, SCI)
2、 Qinglun Che*, Hao Li, Ligang Zhang, et. al, Role of Carbon Nanotubes on Growth of a Nanostructured Doubledeck Tribofilm Yielding Excellent Self-Lubrication Performance, Carbon, 2019, (IF=7.5, Top, Q1, SCI)
3、 G Liu, L Zhang, G Li, F Zhao, Q Che, C Wang, G Zhang, Tuning the tribofilm nanostructures of polymer-on-metal joint replacements for simultaneously enhancing anti-wear performance and corrosion resistance, Acta biomaterialia, 2019(IF=6.8, Top, Q1, SCI)
4、 L Zhang, G Li, Y Guo, H Qi, Q Che, G Zhang, PEEK reinforced with low-loading 2D graphitic carbon nitride nanosheets: High wear resistance under harsh lubrication conditions, Composites Part A, 2018(IF=6.9, Top, Q1, SCI)
5、 Q. L. Che, J. J. Zhang, X. K. Chen, et. al, Spark plasma sintering of titanium-coated diamond and copper-titanium powder to enhance thermal conductivity of diamond/copper composites. Materials Science in Semiconductor Processing, 2015, (IF=2.8, Q2, SCI)
6、 Q. L. Che, J. J. Zhang, X. K. Chen, et. al, The influence of minor titanium addition on thermal properties of diamond/copper composites via in situ reactive sintering. Materials Science in Semiconductor Processing, 2015, (IF=2.8, Q2, SCI)
7、 C. Dang, Q. L. Che, B.L. Gao, et. al, Growth, photoluminescence and thermal conductance of graphene-like nanoflakes grown on copper foils in methane environment. Materials Science in Semiconductor Processing, 2015, (IF=2.8, Q2, SCI)
8、 Yanwu Li, Xuekang Chen, Xiaohang Bai, Qinglun Che, Yajuan Li, A modified numerical method for the accurate calculation of molecular flow transmission probabilities and density distributions of cylindrical tubes, Vacuum, 2013, (IF=2.4, Q2, SCI)
