个人资料
- 直属机构:未来科学与工程学院
- 联系电话:
- 性别:男
- 电子邮箱:shengwang@suda.edu.cn
- 专业技术职务:
- 办公地址:www.优德88.cpm 未来科创中心
- 毕业院校:南京大学
- 通讯地址:
- 学位:工学博士学位
- 邮编:215222
- 学历:博士研究生毕业
- 传真:
教育经历
教育经历:
- 博士,2018.09-2022.09,电子科学与技术,南京大学,博士,2022.09,电子科学与技术,南京大学
工作经历
工作经历:
- 2022.12-至今,www.优德88.cpm ,教学科研岗,讲师
个人简历
个人简介:
王胜,www.优德88.cpm 优秀青年学者,讲师。2022年博士毕业于南京大学电子科学与工程学院,获得工学博士学位。研究方向为硅基光电材料及器件,多能量域高效转换与存储材料及器件和硅基MEMS器件等。近年来以一作/通讯发表IF>10的高水平SCI期刊论文十余篇,其中2025年已发表3篇,主持江苏省自然科学基金青年项目1项。
研究领域
研究领域:
开授课程
开授课程:
课程教学:
- 1、微机电系统概论,本科生,2022.02-2022.07,80,102
- 2、大规模集成电路制造工艺,21级集成电路专业本科生,202309-,82
- 3、微传感器原理及技术,集成电路21级,83,54
科研项目
科研项目:
- 1、基于半导体/金属微纳复合结构实现对太阳光谱的高效调控和光-热-电转换,-2022.12,2018.01,徐骏,国家重点专项,国家自然科学基金委,工科,290,2018YFB2200101,参与
论文
论文:
- 1、An ultra-low-charge-overpotential and long-cycle-life solid-state Li-CO2 battery enabled by plasmon-enhanced solar photothermal catalysis,Nano Energy,SCI,2022.09,Sheng Wang,Nanjing university,Jun Xu, Hucheng Song,Nanjing university,107521
- 2、A High-Energy Long-Cycling Solid-State Lithium-Metal Battery Operating at High Temperatures,Advanced Energy Materials,SCI,2022.09,Sheng Wang,Nanjing university,Jun Xu, Hucheng Song,Nanjing university,2201866
- 3、An extra-wide temperature all-solid-state lithium-metal battery operating from −73 ℃ to 120 ℃,Energy Storage Materials,SCI,2021.04,Sheng Wang,Nanjing university,Jun Xu, Hucheng Song,Nanjing university,39, 139–145
- 4、Ultra-fine surface solid-state electrolytes for long cycle life all-solid-state lithium–air batteries,Journal of Materials Chemistry A,SCI,2018.08,Sheng Wang,Nanjing university,Haoshen Zhou, Ping He, Hucheng Song,Nanjing university,6, 21248,1
- 5、Solar-driven all-solid-sate lithium-air batteries operating at extreme low temperatures,Energy Environment Science,SCI,2020.03,Hucheng Song, Sheng Wang,Nanjing university,Haoshen Zhou, Jun Xu, Ping He,Nanjing university,13, 1205-1211,1
- 6、 Enhancement of solar vapor generation by a 3D hierarchical heat trapping structure,JJournal of Materials Chemistry A,SCI,2019.11,Xiaoying Song,Nanjing university,Sheng Wang,Jun Xu, Hucheng Song,Nanjing university,DOI:10.1039/c9ta09554c,2
- 7、A bottom-up synthetic hierarchical buffer structure of copper silicon nanowire hybrids as ultra-stable and high-rate lithium-ion battery anodes,JJournal of Materials Chemistry A,SCI,2018.03,Hucheng Song,Nanjing university,Sheng Wang,Haosheng Zhou, Jun Xu,Nanjing university,DOI:10.1039/c8ta01694a,2
- 8、A wide temperature solid-state Li–S battery enabled by a plasmon-enhanced copper–silicon nanowire photothermal current collector,Journal of Materials Chemistry A,SCI,2022.09,Xiaoying Song,Nanjing university,Sheng Wang,Jun Xu, Hucheng Song,Nanjing university,DOI: 10.1039/d2ta04343b,2
- 9、A high-performance Li-CO2 battery based on carbon-free porous Ru@QNFs cathode,Small,SCI,2023,Ting Zhu,Nanjing university,Sheng Wang,Jun Xu, Hucheng Song,Nanjing university,1
- 10、A Design of Solid-State Li‑S Cell with Evaporated Lithium Anode To Eliminate Shuttle Effects,ACS Applied Materials Interfaces,SCI,2017.05,Yujie Hao,Nanjing University,Sheng Wang,Haoshen Zhou, Ping He,Nanjing University,9, 33735−33739,2
- 11、A stable solid-state lithium–oxygen battery enabled by heterogeneous silicon-based interface,Nanotechnology,SCI,202301,Zhiqian Yu,Nanjing university,Sheng Wang,Nanjing university,34, 165402,2
- 12、Failure mechanisms and design strategies for low-temperature solid-state metal batteries,Journal of Materials Chemistry A,SCI,2025.02.12,Huajian Xu,Soochow University,Sheng Wang,Soochow University
- 13、Nanowire‐Based Flexible Sensors for Wearable Electronics, Brain–Computer Interfaces, and Artificial Skins,Electron,SCI,2025.01.03,Yang Gu,Soochow University,Sheng Wang,Soochow University
- 14、Scalable Integration of High Sensitivity Strain Sensors Based on Silicon Nanowire Spring Array Directly Grown on Flexible Polyimide Films,Nano Letters,SCI,2025.01.24,Nanjing University,Sheng Wang,Soochow university
科技成果
软件著作
软件著作:
专利
专利:
荣誉及奖励
荣誉及奖励:
- 1、南京大学优秀研究生,南京大学,王胜,2021,2022
招生信息
招生信息:
招生信息1:
具备学术型、专业型硕士生指导资格,热诚欢迎对半导体材料及器件、集成电路制造、光电热能量转换与存储方向感兴趣的同学加入!招生专业详见:
http://dzxx.suda.edu.cn/4e/ad/c8244a544429/page.htm
Email:shengwang@suda.edu.cn
