个人简历

经历：
1999年7月毕业于清华大学摩擦学国家重点实验室，获工学博士学位；1999.9- 2001.11月在清华大学工程力学系流体力学研究所从事博士后研究；2005.11- 2006.12美国麻省理工学院机械工程系访问学者；2012.9- 2013.3美国宾夕法尼亚大学机械工程与应用力学系高级访问学者；2013.9- 2014.3、2018.9- 2019.3美国麻省理工学院微系统实验室高级访问学者。

研究领域

微能源系统与纳米发电机；微轴承设计与制造；表/界面接触与摩擦学"主持项目
[1] 国家自然基金重点项目(No. 51735001)：纳米发电机多级织构界面接触/摩擦起电机理与调控研究
[2] 国家自然基金(No. 11472046)：多尺度粗糙表面的MEMS涂层黏着接触力学研究
[3] 国家自然基金(No. 51275046)：旋转 MEMS 微球轴承的滚动摩擦测试与减摩机制研究
[4] 国家自然基金(No. 10872031)：Power MEMS 微转子-轴承系统的非线性动力学研究
[5] 国家自然基金 (No. 10572025)：微极性润滑薄膜的分岔与混沌特性研究
[6] 教育部高等学校博士点基金 (No. 20121101110015)：高剪切速率下气油两相流本构方程及润滑特性研究
[7] 教育部新世纪优秀人才项目（2005年）：硅微涡轮发动机轴承-转子系统基础研究
[8] 北京市自然基金 (No. 3102025)：微发动机转子-轴承-密封系统的动力学研究
[9] 国防973子项目"

近期论文

论文
[1] Yanqiang Hu, Xiaoli Wang*, Hanqing Li, Zhihao Li, Na Sun. Tribological properties and electrification performance of patterned surface for sliding-mode triboelectric nanogenerator. Langmuir, 2019, 35: 9396−9401.
[2] Wu Jun, Wang Xiaoli*, Li Hanqing, Wang Feng, Hu Yanqiang. First-principles investigations on the contact electrification mechanism between metal and amorphous polymers for triboelectric nanogenerators. Nano Energy, 2019, 63: 103864.
[3] Yang Weixu, Wang Xiaoli*, Li Hanqing, Wu Jun, Hu Yanqiang, Li Zhihao, Liu Hui. Fundamental research on the effective contact area of micro-/nano-textured surface in triboelectric nanogenerator. Nano Energy, 2019, 57: 41-47.
[4] Yang Weixu, Wang Xiaoli*, Li Hanqing, Wu Jun, Hu Yanqiang. Comprehensive contact analysis for vertical-contact-mode triboelectric nanogenerators with micro-/nano-textured surfaces. Nano Energy, 2018, 51: 241-249.
[5] Wu Jun, Wang Xiaoli*, Li Hanqing, Wang Feng, Yang Weixu, Hu Yanqiang. Insights into the mechanism of metal-polymer contact electrification for triboelectric nanogenerator via first-principles investigations. Nano Energy, 2018, 48: 607-616.
[6] Yang Weixu, Wang Xiaoli*, Li Hanqing, Song Xintao. Effects of hierarchical structures and insulating liquid media on adhesion. Applied Surface Science, 2017, 423: 891-899.
[7] Yang Weixu, Wang Xiaoli*, Li Hanqing, Song Xintao. A novel tribometer for the measurement of friction torque in microball bearings. Tribology International, 2017, 114: 402-408.
[8] Zhang Yuyan, Wang Xiaoli, Tu Qiaoan, Sun Jianjun, Ma Chenbo. Mechanical modeling and characteristic study for the adhesive contact of elastic layered media. Journal of Physics D: Applied Physics, 2017, 50(47): 475601.
[9] Jinbo Liu, Xiaoli Wang*, Hanqing Li, Weixu Yang, Delamination mechanism maps for coatings/substrates system subjected to adhesive contact loads, Thin Solid Films, 2017, 626: 159-167
[10] Zhang Yuyan, Wang Xiaoli*, Li Hanqing, Yang Weixu, A numerical study of the rolling friction between a microsphere and a substrate considering the adhesive effect, Journal of Physics D: Applied Physics, 2016, 49: 1-9.
[11] Yuyan Zhang, Xiaoli Wang*, Hanqing Li, Weixu Yang. Construction of adhesion maps for contacts between a sphere and a half-space: Considering size effects of the sphere. Journal of Colloid and Interface Science, 2015, 458: 255-65.
[12] Yuyan Zhang, Xiaoli Wang*, Hanqing Li, Ben Wang. Adhesive behavior of micro/nano- textured surfaces. Applied Surface Science，2015, 329: 174-183.
[13] Yuyan Zhang, Xiaoli Wang*, Xiao-Qing Zhang, Xiao-Liang Yan. Dynamic analysis of a high-speed rotor-ball bearing system under elastohydrodynamic lubrication. ASME Journal of Vibration and Acoustics，2014, 136(6): 061003.
[14] Lina Si, Xiao-Li Wang*. Nano-adhesion influenced by atomic-scale asperities: a mole-
cular dynamics simulation study. Applied Surface Science，2014, 317: 710-717.
[15] Xiao-Liang Yan, Xiaoli Wang*, Yu-Yan Zhang. A numerical study of fatigue life in non-Newtonian thermal EHL rolling-sliding contacts with spinning. Tribology International, 2014, 80: 156-165.
[16] Xiao-Liang Yan, Xiao-Li Wang*, Yu-Yan Zhang. Influence of roughness parameters skewness and kurtosis on fatigue life under mixed elastohydrodynamic lubrication point contacts. ASME Journal of Tribology，2014, 136(3), 031503.
[17] Hua_Rui Yang, Xiao-Li Wang*, Yu-Yan Zhang, Jing_Fang Du. Study on the bubbly lubrication of journal bearings at various shear rates and temperatures. Tribology International, 2014, 71: 132-139.
[18] Xiao-Qing Zhang, Xiao-Li Wang*, Ren Liu, Yu-Yan Zhang. Modeling and analysis of micro hybrid gas spiral-grooved thrust bearing for microengine. Journal of Engineering for Gas Turbines and Power，2013, 135(12), 122508.
[19] Xiao-Liang Yan, Xiao-Li Wang*, Yu-Yan Zhang. A Parametric study on fatigue life for mixed elastohydrodynamic lubrication point contacts. ASME Journal of Tribology，2013, 135(4), 041501.
[20] Xiao-Qing Zhang, Xiao-Li Wang*, Ren Liu, Ben Wang. Influence of temperature on nonlinear dynamic characteristics of spiral-grooved gas-lubricated thrust bearing-rotor systems for microengine. Tribology International，2013, 61: 138-143.
[21] Xiao-Qing Zhang, Xiao-Li Wang*, Yu-Yan Zhang. Non-linear dynamic analysis of the ultra-short micro gas journal bearing-rotor systems considering viscous friction effects. Nonlinear Dynamics，2013 : 1-15.
[22] Yu-Yan Zhang, Xiao-Li Wang*, Xiao-Liang Yan. Dynamic behaviors of the elastohydrodynamic lubricated contact for rolling bearings. ASME Journal of Tribology，2013, 135(2): 021501.
[23] Ren Liu, Xiao-Li Wang*, Xiaoqing Zhang, Ren Liu. Effects of gas rarefaction on dynamic characteristics of micro spiral-grooved thrust bearing. ASME Journal of Tribology，2012, 134(2): 022201-7
[24] Xiaoqing Zhang, Xiao-Li Wang*, Ren Liu. Effects of microfabrication defects on the performance of gas bearings with high aspect ratio in microengine. Tribology International，2012, 48(1): 207-215.
[25] Xiao-Li Wang*, Jun-Yan Zhang. Analysis of bearing lubrication under dynamic loading considering micropolar and cavitating effects. Tribology International, 2011, 44(9): 1071-1075.
[26] Pan Yang，Ke-Qin Zhu，Xiao-Li Wang. On the non-linear stability of self-acting gas journal bearings. Tribology International, 2009, 42(1): 71-76.
[27] Xiao-Li Wang*, Ke-Qin Zhu. Numerical analysis of journal bearings lubricated with micropolar fluids including thermal and cavitating effects. Tribology International, 2006, 39(3): 227-237.
[28] Xiao-Li Wang*, Ke-Qin Zhu. On the tribological characteristics of dynamically loaded journal bearing with micropolar fluids. Science in China（Ser. G）, 2004, 47: 45-50.
[29] Xiao-Li Wang*, Ke-Qin Zhu. A study of the lubricating effectiveness of micropolar fluids in a dynamically loaded journal bearing. Tribology International, 2004, 37(6): 481-490.
[30] Ling Ren, Ke-Qin Zhu and Xiao-Li Wang. Effects of the slip velocity boundary condition on the characteristics of microbearings. Journal of Micromechanics and Microenginering, 2004, 14: 116-124.
[31] Xiao-Li Wang*, Ke-Qin Zhu, Chang-Lin Gui. A study of a journal bearing lubricated by couple stress fluids considering thermal and cavitating effects. Proceedings of the Institution of Mechanical Engineers (Part J ) — Engineering Tribology, 2002, 216: 293-305.
[32] Xiao-Li Wang*, Ke-Qin Zhu, Shi-Zhu Wen. On the performance of dynamically loaded journal bearings lubricated with couple stress fluids. Tribology International, 2002, 35: 185-191.
[33] Xiao-Li Wang*, Ke-Qin Zhu, Shi-Zhu Wen. Thermohydrodynamic analysis of journal bearings lubricated with couple stress fluids. Tribology International, 2001, 34: 335-343.
主要学术兼职有教育部机械基础课程教学指导委员会委员；中国振动学会常务理事；中国机械工程学会高级会员、摩擦学分会理事、气体润滑专业委员会委员；教育部留学回国基金、上银优秀机械博士论文奖评委；《Nano Energy》、《Journal of Tribology》、《Tribology International》、《Journal of Vibration and Control》等国际期刊评审