邵瑞文 |
助理教授 |
学科:机械工程 |
方向:机械电子工程 |
电子邮件:rwshao@bit.edu.cn |
办公地址:北京市海淀区中关村南大街5号bob手机在线登陆国防科技园5号楼711 |
个人简介
长期从事机器人系统设计与纳米级高精度操作、显微视觉、微纳加工等领域的研究,致力于结合微纳操作系统和透射/扫描电子显微镜对微纳机器人及其器件进行原型创成及相关研究。在 Nano Letter,Advanced Materials,Advanced Functional Materials,Small Methods 等国际著名期刊发表论文 30 余篇。负责医工融合研究院电镜平台建设与运行。
教育/培训经历
2006年-2010年,天津大学机械学院 学士
2010年-2016年,北京工业大学固体微结构与性能研究中心 博士
工作经历
2016年-2018年,北京大学电子显微镜实验室 博士后
2018年-2019年,中科院理化技术研究所 助理研究员
2019年至今,bob手机在线登陆 助理教授
学术任职
研究领域
微纳机器人,微纳操作,电子显微镜
所获奖励/荣誉
讲授课程
教材及专著
参与项目
主持国家自然科学基金青年基金等,参与国家自然科学基金,国家重点研发计划等项目。
SCI Journal paper
[1]ShaoRuiwen;WangLihua;DongWeikanget. al,In situ TEM revealing pretreatment and interface effects in Ge2Sb2Te5, accepted by Applied Physical Letters, DOI: 10.1063/5.0007124.(Top,影响因子:3.52,二区)
[2]ZhuChongyang*; ShaoRuiwen*; ChenShulinet. al,In Situ Visualization of Interfacial Sodium Transport and Electrochemistry between Few‐Layer Phosphorene. Small Methods. 2019, 1900061. *=equal contribution(即时影响因子:11.3)
[3]ShaoRuiwen; ChenShulin; DouZhipenget. al,Atomic-Scale Probing of Reversible Li Migration in 1T-V1+xSe2and the Interactions between Interstitial V and Li. Nano Letters. 2018, 18, 6094-6099.(Top,影响因子:12.27,一区)
[4]YangChengkai*; ShaoRuiwen*; MiYingyinget. al,Stable interstitial layer to alleviate fatigue fracture of high nickel cathode for lithium-ion batteries. Journal ofPower Sources. 2018, 376, 200-206.*= equal contribution.(Top,影响因子:7.46,一区)
[5]ShaoRuiwen; Zhengkun; ChenYongjinet. al,Direct observation of structural transitions in the phase change material Ge2Sb2Te5. Journal of Material Chemistry C. 2016,4,9303-9309.(Top,影响因子:6.64,一区)
[6]ShaoRuiwen; ZhengKun; WeiBinet. al,Bandgap engineering and manipulating electronic and optical properties ofZnOnanowires by uniaxial strain. Nanoscale. 2014, 6, 4936-4941.(Top,影响因子:6.97,一区)
[7]ShaoRuiwen; Gao Pan; ZhengKunet. al,Theeffect of tensile and bending strain on the electrical properties of p-type〈110〉silicon nanowires. Nanotechnology. 2015,26,265703.(Top,影响因子:3.39,二区)
[8]ShaoRuiwen; ZhengKun; Understanding the opposite electrical responses of an individualZnOnanowire under different bending deformations. RSC Advance 2015, 5, 34447-34450.
[9]ShaoRuiwen; ZhengKun; ZhangYuefeiet. al,Piezoresistancebehaviors of ultra-strainedSiCnanowires. Applied Physical Letters, 2012, 101, 233109.(Top,影响因子:3.52,二区)
EI Journal paper
中文论文
专利
一种原位高分辨观察相变材料电致相变过程的透射电镜薄膜窗 CN201410140893.X
Personal Resume
Education Background
2006 -2010,College of Mechanical Engineering,Tianjin University,Bachelor degree
2010 -2016,Institute of Microstructure and Properties of Advanced Materials,Beijing University of Technology,Doctor Degree
Positions and Employment
2016-2018,ElectronMicroscopeLaboratory, Peking University,Postdoctor
2018-2019,Technical Institute of Physics and Chemistry,CAS, AssistantResearchFellow
2019 tonow,Institute of Convergence in Medicine and Engineering, AssistantProfessor
Professional Membership/Academic Appointments
Research and Teaching Interest
Micro-nano Robotics,Micro-nanoManipulation,ElectronMicroscopy
Honors and Awards