姓 名:王建軍
郵 箱:jjwang@zut.edu.cn
研究方向:電子摩擦、材料設計
個人簡介:博士、教授、碩士生導師,800cc全讯白菜网學術副院長。受國家留學基金委資助,先後在意大利國際理論物理中心、德國亥姆霍茲聯合會于利希研究中心進行合作研究。主要從事材料設計、電子摩擦方面的研究工作。主持完成國家自然科學基金2項,參與完成國家自然科學基金4項,主持完成河南省自然科學基金面上項目等省、廳項目4項。先後在包括J. Mech. Phys. Solids、Tribology International、Phys. Rev. B等在内的國際專業學術期刊上發表論文近40篇,出版專著1部。現為Phys. Rev. B、Tribology Letters、等期刊的審稿人。先後獲得河南省教育廳學術技術帶頭人、河南省青年骨幹教師、白菜收录大全网址青年拔尖人才等榮譽稱号。
代表性成果:
1. 主持的科研項目
(1)國家自然科學基金委-河南聯合基金,新型二維異質結構材料納米摩擦性質及其調控的研究,基金批準号:U1604131,2017.01-2019.12,45萬元,主持。
(2)國家自然科學基金理論物理專款,電場和表面修飾對石墨烯系統納米摩擦性質調制的理論研究,基金批準号:11447155,2015.01-2015.12,5萬元,主持。
(3)河南省自然科學基金-面上項目,納米摩擦的邊緣效應及其機制的多尺度研究,項目批準号:232300421219,2023.01-2014.12,10萬元,主持。
(4)河南省青年骨幹教師資助項目:二維異質界面納米摩擦性質及其調控研究,2018.1.1-2020.12.31,3萬元,主持。
(5)河南省基礎與前沿技術研究計劃項目,電場雜質耦合效應對碳基薄膜納米摩擦調制的理論研究,項目批準号:142300410250,2014.01-2015.12,主持。
(6)河南省教育廳科學技術研究重點項目,石墨烯納米摩擦性質的調控,項目批準号:14A140025,2萬元,2014.01-2015.12,主持。
2. 代表性論著
1. Jianjun Wang, et al., Theoretical study of superlow friction between two single-side hydrogenated graphene sheets, Tribology Letters, 2012, 48 (2): 255-261.
2. Jianjun Wang, et al., First-principles study of nanoscale friction between graphenes, Acta Physica Sinica, 2012, 10: 337-343.
3. Jianjun Wang, et al., Comparative study of friction properties for hydrogen- and fluorine-modified diamond surfaces: A first-principles investigation, Surface Science, 2013, 608 (2): 74-79.
4. Jianjun Wang, et al., Charge distribution view: large difference in friction performance between graphene and hydrogenated graphene systems, Tribology Letters, 2014, 55(3): 405-412.
5. Jianjun Wang, et al., An atomic scale study of ultralow friction between phosphorus-doped nanocrystalline diamond films, Tribology International, 2015, 86: 85-90.
6. Jianjun Wang, et al., Tuning the nanofriction between two graphene layers by external electric fields: A density functional theory study, Tribology Letters, 2016, 61(1): 4-9.
7. Jianjun Wang, et al., The flexible lubrication performance of graphene used in diamond interface as a solid lubricant: First-principles calculations. Nanomaterials, 2019, 9(12), 1784.
8. Jianjun Wang, et al., Sphere and cylinder contact mechanics during slip. Journal of the Mechanics and Physics of Solids, 143,104094, 2020.
9. Jianjun Wang, et al., Role of lattice trapping for sliding friction, Europhysics Letters, 2020, 131, 24006.
10. Jianjun Wang, et al., Cylinder-flat-surface contact mechanics during sliding, Physics Review E, 2020, 102, 043002.
11. A. Tiwari, Jianjun Wang, Adhesion paradox: Why adhesion is usually not observed for macroscopic solids, Physics Review E, 2020, 102, 042803.
12. Jianjun Wang, et al., Dependency of sliding friction for two-dimensional systems on electronegativity [J]. Physical Review B, 2022, 105, 165431.
13. Jianjun Wang, et al., First-principles study on the nanofriction properties of diamane: The thinnest diamond film, Nanomaterials, 2022, 12, 2939.
14. W.T. Yang, Jianjun Wang*. Enhanced gas molecules adsorption on γ-graphyne doped with Fe atom: A first- principles study [J]. Applied Surface Science, 2022, 601,154083.
15. 二維結構納米摩擦及調控的理論計算,鄭州大學出版社,22.9萬字,王建軍著,2022年8月。
