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王军军

教授,材料分析测试中心主任

电子邮箱:wangjunjun@cqut.edu.cn 办公地址:

论文(代表性10篇):

[1]Wang, L.-Q.; Zhou, Y.-T.;Wang, J.*; Liu, X.-Q., Effects of ratio of hydrogen flow on microstructure of hydrogenated microcrystalline silicon films deposited by magnetron sputtering at 100 °C. Journal of Central South University 2019, 26 (10), 7.

[2]Wang, J.*.; Huang, X.; Zhang, H.; Wang, L.; Huang, W. *; Kuang, S.; Huang, F., Diamond(001)–Si(001) and Si(001)–Ti(0001) interfaces: A density functional theory study. Journal of Physics and Chemistry of Solids 2020, 145, 109563.

[3]Wang, J.*; Kuang, S.; Yu, X.; Wang, L.; Huang, W. *, Tribo-mechanical properties of CrNbTiMoZr high-entropy alloy film synthesized by direct current magnetron sputtering. Surface and Coatings Technology 2020, 403, 126374.

[4]Yu, W.;Wang, J.*; Huang, W. *; Cui, L.; Wang, L., Improving high temperature tribological performances of Si doped diamond-like carbon by using W interlayer. Tribology International 2020, 146, 106241.

[5]Kuang, S.;Wang, J.*; Wang, L.; Huang, W. *; Zhou, Z., Improvement of the mechanical and the tribological properties of CrNbTiMoZr coatings through the incorporation of carbon and the adjustment of the substrate bias voltage. Surface and Coatings Technology 2021, 412, 127064.

[6]Wang, J.*; Zhang, H.; Yu, X.; Wang, L.; Huang, W.; Lu, Z., Insight into the structure and tribological and corrosion performance of high entropy (CrNbSiTiZr)C films: First-principles and experimental study. Surface and Coatings Technology 2021, 421, 127468.

[7]Yu, W.; Huang, W. *;Wang, J.*; Long, Q.; Su, Y.; Wang, L.; Guan, X., Compositional design of diamond-like carbon film for tribological performance at elevated temperature: Si and W co-doping. Journal of Non-Crystalline Solids 2021, 121281.

[8]Yu, W.; Huang, W. *;Wang, J.*; Su, Y.; Long, Q.; Wang, L.; Zhu, L., High-temperature tribological performance of the Si-gradually doped diamond-like carbon film. Vacuum 2021, 191, 110387.

[9]Yu, X.;Wang, J.*; Wang, L.; Huang, W., Fabrication and characterization of CrNbSiTiZr high-entropy alloy films by radio-frequency magnetron sputtering via tuning substrate bias. Surface and Coatings Technology 2021, 412, 127074.

[10]Zhang, H.;Wang, J.*; Huang, W.; Wang, L. *; Lu, Z., Interface bonding and failure mechanism of Ti(001)/Si(001) and TiO2(001)/Si(001) interfaces: A first–principles study. Surfaces and Interfaces 2022, 101833.

获奖:

[1]低噪音环保型车用摩擦材料关键技术开发与应用,重庆市科技进步奖一等奖,2016.

[2]高性能特种玻璃纤维及绿色制造关键技术创新与产业化,重庆市科技进一等奖,2021