数字化制造研究所

数字化制造研究所
副高级职称

林世权

林世权

职务/职称

预聘副教授 博导、硕导

学院及专业

BET体育365投注官网 机械工程

联系方式

办公电话:010-68912503

办公地点:BET体育365投注官网求是楼402

电子邮件:linshiquan@bit.edu.cn

个人简介

林世权,男,工学博士,2013年获北京科技大学机械工程及自动化专业工学学士学位,2018年获清华大学机械工程专业工学博士学位,2024年加入BET体育365投注官网

主持国家自然科学基金青年面上项目。近年来以第一作者/通讯作者的身份在Chem. Rev.PNAS, Nat. Commun.Adv. Mater.Mater. Today, Nano EnergyAdv. Funct. Mater.ACS NanoAppl. Phys. Lett.Phys. Chem. Chem. Phys.SCI期刊上发表论文30余篇,被引3300余次,H因子26

研究方向及

研究领域

研究方向:表界面科学与技术、摩擦起电机理与应用、智能检测与智能传感等。

研究领域:智能制造、智能装备、摩擦学等。

欢迎机械制造、智能制造、机械工程等专业同学,以及具有物理、化学、材料等专业背景的同学报考硕士和博士研究生。

社会职务

The Innovation》、Friction、《中国表面工程》等期刊青年编委。

代表性论文及研究项目

代表性论文:

[1] S. Lin#, X. Chen#, Z. L. Wang*, Contact electrification at the liquid-solid interface. Chemical Reviews, 2021, 122, 5209.

[2] S. Lin, L. Zhu, Z. Tang, Z. L. Wang*, Spin-selected electron transfer in liquid-solid contact electrification. Nature Communications, 2022, 13, 5230.

[3] S. Lin, L. Xu, A. Wang, Z. L. Wang*, Quantifying electron-transfer in liquid-solid contact electrification and the formation of electric double-layer. Nature Communications, 2020, 11, 399.

[4] Z. Tang, D. Yang, H. Guo, S. Lin*, Z. L. Wang*, Spontaneous wetting induced by contact electrification at liquid-solid interface. Advanced Materials, 2024, DOI: 10.1002/adma.202400451.

[5] S. Lin#, L. Cao#, Z. Tang, Z. L. Wang*, Size-dependent charge transfer between water microdroplets. PNAS, 2023, 120, e2307977120.

[6] J. Zhang#, X. Wang#, L. Zhang, S. Lin*, C. Simone*, Z. L. Wang*, Triboelectric spectroscopy for in situ chemical analysis of liquids. JACS, 2024, 146, 6125.

[7] S. Lin, L. Xu, L. Zhu, X. Chen, Z. L. Wang*, Electron transfer in nanoscale contact electrification: photon excitation effect. Advanced Materials, 2019, 31, 1901418.

[8] S. Lin, L. Xu, C. Xu, X. Chen, A. Wang, B. Zhang, P. Lin, Y. Yang, H. Zhao, Z. L. Wang*, Electron transfer in nanoscale contact electrification: effect of temperature in the metal-dielectric case. Advanced Materials, 2019, 31, 1808197.

[9] S. Lin, Z. L. Wang*, The tribovoltaic effect. Materials Today, 2023, 62, 111.

[10] S. Lin, X. Chen, Z. L. Wang*, The tribovoltaic effect and electron transfer at a liquid-semiconductor interface. Nano Energy, 2020, 76, 105070.

[11] S. Lin#, M. Zheng#, J. Luo, Z. L. Wang*, Effects of surface functional groups on electron transfer at liquid-solid interfacial contact electrification. ACS Nano, 2020, 14, 10733.

[12] S. Lin, C. Xu, L. Xu, Z. L. Wang*, The overlapped electron-cloud model for electron transfer in contact electrification. Advanced Functional Materials, 2020, 30, 1909724.

[13] S. Lin, L. Xu, W. Tang, X. Chen, Z. L. Wang*, Electron transfer in nano-scale contact electrification: atmosphere effect on the surface states of dielectrics. Nano Energy, 2019, 65, 103956.

[14] Z. Tang#, S. Lin# Z. L. Wang*, Quantifying contact-electrification induced charge transfer on a liquid droplet after contacting with a liquid or solid. Advanced Materials, 2021, 33, 2102886.

[15] M. Zheng#, S. Lin#, L. Xu, L. Zhu, Z. L. Wang*, Scanning probing of the tribovoltaic effect at the sliding interface of two semiconductors. Advanced Materials, 2020, 32, 202000928.

[16] J. Zhang#, S. Lin#, Z. L. Wang*, Triboelectric nanogenerator array as a probe for situ dynamic mapping of interface charge transfer at a liquid-solid contacting. ACS Nano, 2023, 17, 1646.

[17] J. Zhang#, S. Lin#, M. Zheng, Z. L. Wang*, Triboelectric nanogenerator as a probe for measuring the charge transfer between liquid and solid surfaces. ACS Nano, 2021, 15, 14830.

[18] M. Zheng#, S. Lin#, Z. Tang, Y. Feng, Z. L. Wang*, Photovoltaic effect and tribovoltaic effect at liquid-semiconductor interface. Nano Energy, 2021, 83, 105810.

[19] Y. Zhu#, S. Lin#, W Gao#, M. Zhang, C. Yang, P. Feng, C. Xu*, Z. L. Wang*, Effects of Oxygen vacancies and cation valence states on the triboelectric property of substoichiometric oxide flims. ACS Applied Materials & Interfaces, 2021, 13, 35795.

[20] S. Lin, Z. L. Wang*, Scanning triboelectric nanogenerator as a nanoscale probe for measuring local surface charge density on a dielectric film. Applied Physics Letters, 2021, 118, 193901.

[21] S. Lin, M. Zheng, Z. Wang*, Detecting the liquid-solid contact electrification charges in a liquid environment. The Journal of Physical Chemistry C, 2021, 125, 14098.

[22] S. Lin, M. Zheng, L. Xu, L. Zhu, Z. Wang*, Electron transfer driven by tip-induced flexoelectricity in contact electrification. Journal of Physics D: Applied Physics, 2022, 55, 315502.

[23] M. Zheng#, S. Lin#, L. Zhu, Z. Tang, Z. Wang*, Effects of temperature on the tribovoltaic effect at liquid-solid interfaces. Advanced Materials Interfaces, 2022, 9, 2101757.

[24] Y. Zhu#, S. Lin#, W. Gao#, M. Zhang, D. Li, P. Feng, C. Xu*, Z. Wang*, Reversal of triboelectric charges on sol-gel oxide films annealed at different temperatures. Applied Physics Letters, 2021, 118, 243902.

[25] J. Zhang#, S. Lin#, Z. Wang*, Electrostatic charges regulate chemiluminescence by electron transfer at the liquid-solid interface. The Journal of Physical Chemistry B, 2022, 126, 2754.

[26] Z. Tang#, S. Lin#, Z. Wang*, Effect of surface pre-charging and electric field on the contact electrification between liquid and solid. The Journal of Physical Chemistry C, 2022, 126, 8897.

作为主持人目前承担的科研项目:

[1] 国家自然科学基金面上项目,基于双电层结构调控的液-固摩擦纳米发电机机理研究,50万,2024-2027.

[2] 国家自然科学基金青年项目,摩擦起电中的马赛克效应及其对摩擦发电机输出性能的影响研究,24万,2021-2023.

[3] 清华大学高端装备界面科学与技术全国重点实验室开放基金重点项目,摩擦起电马赛克效应及其对摩擦行为的影响研究,10万,2024-2026.

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