张鹏 - 四川大学 - 机械工程学院

个人简介

教育背景及工作经历 2007.9 - 2011.7 同济大学机械设计制造及其自动化学士 2011.7 - 2012.7 上海凯盛节能工程技术有限公司助理工程师 2013.9 - 2018.12 西南交通大学机械设计及理论博士 2019.1 - 至今四川大学机械工程学院助理/副研究员从事纳米摩擦学、超精密表面制造理论基础研究，聚焦等离子体刻蚀加工装备和技术开发。主要涉及材料表面工程、半导体制造领域。迄今为止在Nature Communications、Tribology international、wear等期刊发表SCI论文17篇。负责国家自然科学青年基金1项，中国博士后基金面上项目1项，国家重点研发计划项目子课题1项、四川省重点研发计划1项，国家地方联合工程实验室开放基金和专职博士后启动基金各1项。开设课程本科：《机械设计》研究生：《学术规范与研究生论文写作指导》研究领域 1.大气压等离子体刻蚀单晶硅的表面晶格损伤控制与精度形成机理 2021/1-2023/12 2.等离子体辅助蓝宝石表面微观材料去除行为与机理研究 2020/4-2021/12 3用于晶硅太阳能电池表面制绒的大气压等离子体刻蚀装备及工艺 2020/1-2021/12 4. 织构化热处理对润滑条件下轴承钢表面耐磨特性的影响 2021/1-2022/12 授权专利一种大气压ICP 硅太阳能电池制绒装置及制绒系统（2021203649781）

近期论文

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[1] Zhang P, Wu J, Tian H, Dong Y, Yu D. Morphology evolution of the light trapping structure using atmospheric plasma textured c-Si wafer for silicon solar cells. J APPL PHYS 2021, 130(2): 23105. [2] Dong Y, Long L, Zhang P, Yu D, Wen Y, Zheng Z, Wu J, Chen W. A chair-side plasma treatment system for rapidly enhancing the surface hydrophilicity of titanium dental implants in clinical operations. J ORAL SCI 2021, 63(4): 334-340. [3] Guo D, Yu D, Zhang P, Song W, Zhang B, Peng K. Laminar plasma jet surface hardening of P20 mold steel: Analysis on the wear and corrosion behaviors. Surface and Coatings Technology 2021, 415: 127129. [4] Liu Y, Wang L, Liu T, Zhang P. Effect of normal loads and mating pairs on the tribological properties of diamond-like carbon film. WEAR 2021, 486-487: 204083. [5] Xiao C, Deng C, Zhang P, Qian L, Kim SH. Interplay between solution chemistry and mechanical activation in friction-induced material removal of silicon surface in aqueous solution. TRIBOL INT 2020, 148: 106319. [6] Guo D, Yu D, Zhang P, Duan Y, Zhang B, Zhong Y, Qiu J. Laminar plasma jet surface hardening of the U75V rail steel: Insight into the hardening mechanism and control scheme. SURF COAT TECH 2020, 394: 125857. [7] Wu J, Zhang P, Yu D, Zhang S, Xin Q, Wan Y. Monitoring and diagnosis of the inductively coupled atmospheric pressure plasma jet for deterministic optical processing. OPTIK 2020, 214: 164815. [8] Zhang P, Xiao C, Chen C, Chen L, Qian L. Effect of abrasive particle degradation on tribochemical wear of monocrystalline silicon. WEAR 2019, 426-427: 1240-1245. [9] Zhang P, Chen C, Xiao C, Chen L, Qian L. Comparison of Wear Methods at Nanoscale: Line Scanning and Area Scanning. WEAR 2018, 400-401: 137-143. [10] Zhang P, Chen C, Xiao C, Chen L, Jiang L, Qian L. Effects of surface chemical groups and environmental media on tribochemical running-in behaviors of silicon surface. TRIBOL INT 2018, 128: 174-180. [11] Zhang P, He H, Chen C, Xiao C, Chen L, Qian L. Effect of abrasive particle size on tribochemical wear of monocrystalline silicon. TRIBOL INT 2017, 109: 222-228.