教育背景              

2012/08-2016/05   休斯敦大学(University of Houston)机械工程系（固体力学）博士

2008/08-2010/12   怀俄明大学(University of Wyoming)机械工程系(固体力学) 硕士   

2004/09-2008/07   合肥工业大学化学工程与工艺系 学士

工作经历

2016/05-       合肥工业大学土木与水利工程学院工程力学系 “黄山青年学者”研究员

2011/01-2012/05        怀俄明大学(University of Wyoming)机械工程系，研究助理

研究兴趣

 低维纳米材料力学，智能材料与结构力学，物理力学，计算力学与方法

学术兼职

 南方计算力学联络委员会委员，安徽省力学学会理事，安徽省机械工程学会理化检验与失效分析专业委员会理事，《Journal of Semiconductors》青年编委，应用力学学报青年编委，多本学术期刊审稿人

招生计划

欢迎具有力学，材料，机械，土木，物理等理工科背景的青年才俊报考本课题组研究生

人才培养

 本人曾获合肥工业大学2019年度“优秀班主任”，2021-2022学年“鼎信奖教金”和2024年“立德树人奖”等荣誉称号；获安徽省力学学会力学优秀教师奖和全国周培源大学生力学竞赛（个人赛）优秀指导教师奖；指导多项国家级和省级大学生创新项目；指导毕业学生（见下表）：

教授课程：

 省级线上线下混合式课程《材料力学》，《工程力学》，《薄板力学》，省级双语示范课程《连续介质力学》

科研项目

[1] 主持安徽省自然科学基金面上项目：纳米压电半导体多场耦合接触力学性能研究，2022-2024；

[2]主持国家自然科学基金青年项目：基于客观性分子动力学的纳尺度压电材料挠曲电效应机理研究，2018-2020；

[3]主持机械结构强度与振动国家重点实验室开放课题：纳尺度压电材料挠曲电效应的温度依赖性研究，2018-2021；

[4]主持中科院半导体材料科学重点实验室开放课题：应变对纳米材料自旋性质的调控机理研究，2019-2020；

[5]主持合肥工业大学学术新人提升计划B项目：基于力-电-化学耦合理论的能量俘获机理研究，2019-2020；

[6] 主持企业委托项目：波纹管动力学仿真仿真程序开发，2021-2024；

代表论文（带*为通讯作者）

材料力学领域：

[1] Stochastic process model for interfacial gap of purely normal elastic rough surface contact, Y. Xu, J. Joe, X. Li and Y. Zhou, Journal of the Mechanics and Physics of Solids, 192: 105823(2024)

[2] Electromechanical responses of a piezoelectric semiconducting nanoplate with the Steigmann-Ogden surface, X. Li*, C. Zhan* and Y. Xu, Journal of Applied Mechanics, 91: 111004(1-11)(2024)

[3] Surface elastic effects on electromechanical responses of a piezoelectric semiconducting nanobeam, A. Bao,X. Li*, Y. Pu* and C. Zhan,Acta Mechanica Solida Sinica, 37: 598-612(2024)

[4] Tunable Li-ion diffusion properties in MoSSe bilayer anodes by strain gradient, L. Zhong, X. Li*, Y. Pu, M. Wang, C. Zhan and X. Xiao*, Physical Chemistry Chemical Physics,26: 1030-1038(2024)

[5] 考虑表面效应的压电半导体梁的静态屈曲行为研究, 詹春晓，李孝宝^*，王美芹, Applied Mathematics and Mechanics（应用数学和力学）, 45(10): 1300-1312(2024)

[6] 基于DFT与机器学习的GaN电子能带预测及其应变调控, 曾言, 卞维啸，钟礼，李孝宝^*, 应用力学学报, In Press(2025)

[7] Persson's theory of purely normal elastic rough surface contact: A tutorial based on stochastic process theory, Y. Xu*, X. Li, Q. Chen and Y. Zhou*, International Journal of Solids and Structures, 290: 112684(2024)

[8] 单层MoSSe力学性质的分子动力学模拟研究，张宇航，李孝宝^*，詹春晓，王美芹，浦玉学，Acta Physica Sinica（物理学报），72(4): 046201(2023)

[9]Electromechanical and Photoelectric Properties of a Novel Semiconducting Janus InGaSSe Monolayer, L. Zhong, X. Li*, W. Wang and X. Xiao*, Journal of Semiconductors（半导体学报），44: 012701(2023)

[10] Mechanical Properties of Janus MoSSeNTs: A Molecular Dynamics Simulation Study, Z. Guo, X. Li*, M. Wang, C. Cheng, Mechanics of Materials, 176: 104507(2023)

[11] Revisiting the Persson Theory of Elastoplastic Contact: A Simpler Closed Form Solution and a Rigorous Proof of Boundary Conditions, Y. Xu*, X. Li, D. M. Mulvihill, Tribology Letters, 70: 91(2022)

[12] On the Stress Analysis around a Nanoinhomogeneity Embedded in a Half-space with the Account of Steigmann-Ogden Interface Effects, Y. Ban, X. Li and C. Mi*, Applied Mathematical Modelling, 98: 378-397(2021)

[13]Electronic and Mechanical Properties of Two-dimensional Hybridized CuO-FeO Superlattice: A First Principles Study, X. Wang, X. Li and C. Mi*, Superlattices and Microstructures, 156: 106966(2021)

[14] Edge Effect on Flexoelectronic Properties of Janus MoSSe Nanoribbons: A First-principles Study, W. Hao, Z. Wu, X. Li* and Y. Pu*, Journal of Applied Physics,129(18):185101(2021)

[15] On the Frictional Receding Contact between a Graded Layer and an Orthotropic Substrate Indented by a Rigid Flat-ended Stamp, R. Cao, L. Li, X. Li and C. Mi*, Mechanics of Materials, 158: 103847(2021)

[16] Nanoindentation of a Half-space due to a Rigid Cylindrical Roller based on Steigmann–Ogden Surface Mechanical Model, X. Li, C. Mi*, International Journal of Mechanics and Materials inDesign, 17: 25-40(2021)

[17] A Fast Multipole Boundary Element Method based on Higher Order Elements for Analyzing 2-D Potential Problems , B. Hu, Z. Hu, C. Li, Z. Niu* and X. Li, Computers and Mathematics with Applications, 87: 65-76(2021)

[18] Extracting Grain Boundary Motion in Cu-Al Alloy from Atomistic Simulations, X. Li*, H. Sun, Y. Pu and C. Mi*, Journal of Materials Research, 35(20): 2701-2708(2020)

[19] Flamant Solution of a Half-plane with Surface Flexural Resistibility and Its Applications to Nanocontact Mechanics, X. Li, L. Jiang and C. Mi*, Mathematics and Mechanics of Solids, 25(3): 664-681(2020)

[20] Structural, Electronic, and Electromechanical Properties of MoSSe/blue Phosphorene Heterobilayer, X. Li*, X. Wang, W. Hao, C. Mi and H. Zhou*, AIP Advances, 9: 115302(2019)

[21] Effects of Surface Tension and Steigmann-Ogden Surface Elasticity on Hertzian Contact Properties, X. Li, C. Mi*, International Journal of Engineering Science, 145: 103165(2019)

[22] On the Elasticity and Piezoelectricity of Black(blue) Phosphorus/ZnO van der Waals Heterostructures, X. Li*, X. Wu, Z. Zhu, G. Li and C. Mi*, Computational Materials Science, 169: 109134(2019)

[23] Nanoindentation Hardness of a Steigmann-Ogden Surface Bounding an Elastic Half-space, X. Li, C. Mi*, Mathematics and Mechanics of Solids, 24(9): 2754-2766(2019)

[24] Reducing Stress Concentrations in Unidirectionally Tensioned Thick-Walled Spheres through Embedding a Functionally Graded Reinforcement, C. Zheng, X. Li and C. Mi*, International Journal of Mechanical Science, 152: 257-267(2019)

[25] Structural and Electronic Properties of III-nitride Nanoribbons, X. Li, X. Wu, H, Zhou, C. Mi*, Journal of Applied Physics, 124: 175106(2018)

[26] Tuning Stress Concentrations through Embedded Functionally Graded Shells, X. Li, Y. Hua, C. Zheng, C. Mi*, Journal of Mechanics of Materials and Structures, 13(3):311-335(2018)

[27] Room-temperature Ferroelectricity in CuInP₂S₆ Ultrathin Flakes，F. Liu, L. You, K. L. Seyler, X. Li, P. Yu, J. Lin, X. Wang, J. Zhou, H. Wang, H. He, S. T. Pantelides, W. Zhou, P. Sharma, X. Xu, P. M. Ajayan, J. Wang*, Z. Liu*, Nature Communications, 7: 12357(1-6)(2016)

[28] A New Type of Maxwell Stress in Soft Materials due to Quantum Mechanical-Elasticity Coupling, X. Li, L.P. Liu, P. Sharma*, Journal of the Mechanics and Physics of Solids, 87: 115-129(2016)

[29] Geometrically Nonlinear Deformation and the Emergent Behavior of Polarons in Soft Matter, X. Li, L.P. Liu, P. Sharma*,Soft Matter,11:8042-8047(2015)

[30] Mechanical Strain Can Switch the Sign of Quantum Capacitance from Positive to Negative, Y. Hanlumyuang, X. Li, P. Sharma*,Physical Chemistry Chemical Physics, 16: 22962-22967(2014) (与Y. Hanlumyuang共同一作)

[31] Electromechanical Properties of Alternating AlN and SiC Nanoribbon Sheets,X. Li, C. Mi*, F. Meng, In-Ho Lee, Computational Materials Science, 78: 129-133(2013)

[32] Elastic Properties of Edges in BN and SiC Nanoribbon and of Boundaries in C-BN Superlattices: A Density Functional Theory Study, S. Jun*, X. Li, F. Meng and C. V. Ciobanu, Physical Review B, 83: 153407(1-4)(2011)

材料化学领域：

[33] Broadened Photocatalytic Capability to Near-infrared for CdS Hybrids and Positioning Hydrogen Evolution Sites, M. Ma, J. Liu, H. Zhao, S. Yue, L. Zhong, Y. Huang, X. Jia, K. Liu, X. Li*, Z. Wang*, S. Qu*, Y. Lei*, Applied Catalysis B-Environmental, 325: 122327(2023)

[34] Photocatalytic Water Oxidation Directly using Plasmonics from Single Au Nanowires without the Contact with Semiconductors, Y. Qian, F. Tan, J. Liu, Q. Li, K. Ren, Y. Huang, X. Li, D. Cao, K. Liu, C. Zhao, Y. Li*, Z. Wang* and S. Qu, ACS Catalysis, 11: 12940-12946(2021)  

[35] Facile Synthesis of Defect-Modified Thin-Layered and Porous g-C₃N₄ with Synergetic Improvement for Photocatalytic H₂ Production, Y. Huang, J. Liu, C. Zhao, X. Jia, M. Ma, Y. Qian, C. Yang, K. Liu and F. Tan, Z. Wang*, X. Li*, S. Qu* and Z. Wang, ACS Applied Materials & Interfaces, 12(47): 52603-52614(2020)

[36] Light-Tunable 1T-TaS₂ Charge-Density-Wave Oscillators, C. Zhu, Y. Chen, F. Liu, S. Zheng, X. Li, A. Chaturvedi, et al., ACS Nano, 12(11): 11203-11210(2018)

[37] Hot Electron Injection: An Efficacious Approach to Charge LaCoO₃ for Improving the Water Splitting Efficiency, B. Zhang, J. Liu, S. Yue, Y. Teng, Z. Wang*, X. Li*, S. Qu*, Z. Wang, Applied Catalysis B-Environmental, 219: 432-438(2017)

[38] Solubility of Tungsten in Zirconium Diboride Solid Solution, A. Khadimallah*, X. Li, K. W. White, Journal of the European Ceramic Society,37(4): 1195-1203(2017)

专利

[1] 浦玉学，李孝宝，自适应振动主动控制方法、装置以及系统，发明，ZL 2020 1 0838872.0，2022/12/13

[2] 浦玉学,马楷东，张瑞荣，许铭扬，郭鑫，李孝宝，一种新型波动对鳍推进仿生机器鱼，发明，CN 113232805 B，2022/09/09

[3] 浦玉学，舒鹏飞，李孝宝，机器人行走轨迹确定方法、装置、计算机设备及存储介质，发明，ZL 2020 1 0838843.4，2023/05/05

[4] 李孝宝，浦玉学，郭洪明，石晨绚，柳玄普，殷盛凯，一种仿生波动鳍水路两栖推进装置，实用新型，ZL 2022 2 3352507.2，2023/05/16