Faculty

Assoc. Prof.YIN Xuan

Release Time:2024-12-30Number of visits:10

  1. Basic Information

Name: YIN Xuan

Gender: Female

Department: Mechanical Engineering & Mechanics

Email: yinxuan@mail.buct.edu.cn

Education/Academic Credentials: Ph.D

Office Location: 203 Machinery building

ORCID: 0000-0003-3249-9814

DBLP:

  1. Research direction:

Mechanical design and theory, Engineering mechanics, Surface engineering

  1. Introduction:

In 2018, she graduated from the Key Laboratory of the Ministry of Education, Beijing Institute of Technology (Supervisor: Professor Luo Yunjun), and obtained a Doctor degree in engineering. From 2018 to 2020, she conducted postdoctoral research in the National Key Laboratory of High-end Equipment Interface Science and Technology, Department of Mechanical Engineering, Tsinghua University (Co-supervisor: Academician Jianbin Luo), and joined Beijing University of Chemical Technology in 2020 under the "Talent Introduction" project. He is currently a key member of the Key Laboratory of the Ministry of Education. Since 2023, she has been a visiting scholar at the State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences (Co-supervisor: Professor Zhou Feng, Director). He presided over a number of projects such as the National Natural Science Foundation Youth Project and the State Key Laboratory Open Fund, and participated in a number of national, provincial and ministerial vertical projects. As the first or corresponding author in Science Advanced, Nano Letters, ACS Applied Materials & Interfaces, Carbon, Journal of Physical Chemistry Letters and other high-level journals at home and abroad have published more than 30 SCI papers, with an impact factor of 160~ and 480~ citations; 5 national invention patents have been authorized.

  1. Research:

safety mechanism and control of special functional devices, cross-domain unmanned aircraft and laser-resistant surface design

  1. Teaching:

Engineering Drawing (Undergraduate), Tribology (English, undergraduate and Master)

  1. Funding:

  1. Fundamental Research Funds for the Central Universities, 2024/03-2024/12

  2. Tribology Science Fund of the State Key Laboratory of Tribology in Advanced Equipment, 2022/01-2023/12

  3. National Natural Science Foundation of China, 2020/01-2022/12

  4. China Postdoctoral Science Foundation, 2019/09-2020/07

  1. Publications:

  1. X. Yin#, H. Pang#, H. Liu, J. Zhao, B. Zhang, D. Liu, Y. Shi. Achieving ultralow friction under high pressure through operando formation of PbS QDs/graphene heterojunction with 0D/1D nanostructure. Carbon, 2024, 218: 118748 (10.9, Q1, TOP)

  2. X. Yin*, L. Mu, Z. Jia, H. Pang, C. Chai, H. Liu, C. Liang, B.Zhang, D. Liu.Nanostructure of Superlubricating Tribofilm Based on Friction-Induced a-C:H Films under Various Working Conditions: A Review of Solid Lubrication. Lubricants, 2024, 12(2): 40 (3.5, Q2)

  3. H. Pang, J. Xu, H. Liu, W. Wang, X. Yin*, D. Liu, B. Zhang. The induced orientation of hydroxypropyl methylcellulose coating for ultralow wear. Lubricants, 2024,12(4), 129. (3.5, Q2)

  4. X. Wang, G. Chen, Y. Huang, Z. Ma, X. Yin*, C. Chai. Tribological behavior and mechanism of Mo2Ti2C3/polyimide composite films under dry friction condition. Polymer Composites, 2024: 1–12. (5.2, Q1)

  5. G. Chen, S., Y. Huang, H. Pang, X. Yin*, C. Chai. Ultra-low wear in multifunctional Ti3C2Tx/PI composite films induced by tribo-chemistry mechanism. Reactive and Functional Polymers, 2023, 193: 105744 (5.1, Q1)

  6. L. Jin, X. Wang, Y. Huang, G. Chen, H. Pang, X. Yin*, C. Chai. Lubrication mechanism of polyimide/V2CTx MXene composites based on surface chemistry. Polymer Composites, 2023,44: 8075–8084. (5.2, Q1)

  7. S. Wang, X. Han, S. Jiang, Y. Huang, X. Yin*, C. Chai. A review of solid lubrication based on polyurethane composites. Polymer Composites, 2023: 1-13 (5.2, Q1)

  8. H.Pang, L.Li, X.Yin*, B.Zhang, C.Gao, D.Liu. Friction-induced clustered rearrangement at PbS quantum dots nanocoating via long-term lubrication under atmosphere environment. Journal of Physical Chemistry Letters, 2022, 13: 6342–6348 (5.7, Q1, TOP)

  9. X.Yin*, H.Chen, L.Jiang, C.Liang, H.Pang, D.Liu, B.Zhang. Effects of polyacrylic acid molecular weight on V2C-MXene nanocoating for obtaining ultralow friction and ultralow wear under ambient working environment. Physical Chemistry Chemical Physics, 2022, 24: 27406–2741 (3.3, Q1, TOP)

  10. X.Yin, J.Jin, X.Chen, T.Ma, C.Zhang. A New Pathway for Superlubricity in Multilayered MoS2-Ag Film under Cryogenic Environment.Nano Letters, 2021, 21, 24: 10165–10171 (10.8, Q1, TOP)

  11. X.Yin, J.Zhang, T.Luo, B.Cao, J.Xu, X.Chen, J.Luo. Tribochemical mechanism of superlubricity in graphene quantum dots modified DLC films under high contact pressure. Carbon, 2021,173: 329–338 (10.9, Q1, TOP)

  12. X.Yin, H.Pang, Y.Luo, B.Zhang. Eco-friendly functional two-component flame-retardant waterborne polyurethane coatings: A Review. Polymer Chemistry, 2021, 12: 5400–5411 (4.6, Q1)

  13. X.Chen#, X.Yin#, W.Qi, C.Zhang, T.Kato, S.Wu, R.Wang, J.Luo. Atomic-scale insights into the interfacial instability of superlubricity in amorphous carbon films. Science Advances, 2020, 6 (13): eaay1272 (子刊, 13.6, Q1, TOP)

  14. X.Yin, F.Wu, X.Chen, J.Xu, P.Wu, J.Li, C.Zhang, J.Luo. Graphene-induced reconstruction of the sliding interface assisting the improved lubricity of various tribo-couples. Materials & Design, 2020, 19: 108661 (8.4, Q1, TOP)

  15. J.Tian, X.Yin, J.Li, W.Qi, P.Huang, X.Chen, J.Luo. Tribo-induced interfacial material transfer of AFM probe assisting superlubricity in WS2/graphene heterojunction. ACS Applied Materials & Interfaces, 2020, 12 (3): 40314040 (9.5, Q1, TOP)

  16. Y.Guo, X.Sun, J.Jiang, B.Wang, X.Chen, X.Yin, W.Qi, L.Gao, L.Zhang, Z.Lu, R.Jia, S.Pendse, Y.Hu, Z.Chen, E.Wertz, D.Gall, J.Feng, T.Lu, J.Shi. A reconfigurable remotely epitaxial VO2 electrical heterostructure. Nano Letters, 2020, 20 (1): 3342 (10.8, Q1, TOP)

  17. X.Yin, J.Jin, X.Chen, A.Rosenkranz, J.Luo. Ultra-wear-resistant MXenes-based composite coating via in-situ formed nanostructured tribofilm. ACS Applied Materials & Interfaces, 2019, 11: 3256932576 (9.5, Q1, TOP)

  18. X.Yin, C.Dong, C.Chai, Y.Luo. Thermostability and flame retardance of green and functional two-component waterborne polyurethane coatings with nanoparticles. Progress in Organic Coatings, 2018, 122: 119128 (6.6, Q1, TOP)

  1. Awards: