李劢

2018-12-03

徐飞

基本信息

  • 姓名:李劢

  • 职称:讲师

  • 联系方式:见黄页

  • 电子邮件:limai@dhu.edu.cn

  • 研究方向:纳米材料的制备及其在电化学储能,半导体器件等物理、化学方面的应用

学习经历

  • 2006.09-2010.06 南通大学 应用物理学 学士

  • 2010.09-2015.06 华东师范大学 微电子学与固体电子学 硕博连读

工作经历

  • 2014.03-2014.09 香港城市大学 物理与材料科学系 研究助理

  • 2015.07-2016.02 上海微系统与信息技术研究所 博士后

  • 2016.05-2018.05 香港理工大学 屋宇设备工程学系 可再生能源研究组 博士后研究员

  • 2018.05-2018.07 香港城市大学 物理与材料科学系 博士后研究员

  • 2018.07-至今 东华大学 理学院物理系 讲师

代表性论文

  1. M. Li, S.H. Xu, T. Liu, F. Wang, P.X. Yang, L.W. Wang*, P.K. Chu, Electrochemically-Deposited Nanostructured Co(OH)2 Flakes on Three-Dimensional Ordered Nickel/Silicon Microchannel Plates for Miniature Supercapacitors. J. Mater. Chem. A, 1 (2013) 532.

  2. M. Li, S.H. Xu, P.X. Yang, L.W. Wang*, P.K. Chu, Heterostructured Ni(OH)2-Co(OH)2 Composites on 3D Ordered Ni-Co Nanoparticles Fabricated on Microchannel Plates for Advanced Miniature Supercapacitor. Journal of Alloys and Compounds, 589 (2014) 364-371.

  3. M. Li, S.H. Xu, Y.P. Zhu, Y. Xu, P.X. Yang, L.W. Wang*, P.K. Chu*, Three-dimensional nanoscale Co3O4 electrode on ordered Ni/Si microchannel plates for electrochemical supercapacitors. Materials Letters, 132 (2014) 405-408.

  4. M. Li, S.H. Xu, Christopher Cherry, L.W. Wang*, P.K. Chu*, et al., Asymmetrical Supercapacitor Composed of Thin Co(OH)2 Nanoflakes on Three-Dimensional Ni/Si Microchannel Plates with Superior Electrochemical Performance. Electrochimica Acta, 149 (2014) 18-27.

  5. M. Li, S.H. Xu, Christopher Cherry, L.W. Wang*, P.K. Chu*, et al., Hierarchical 3-Dimensional CoMoO4 nanoflakes on Ordered Ni/Si Microchannel Plates with Superior Electrochemical Performance. J. Mater. Chem. A, 3 (2015) 13776-13785.

  6. M. Li, Y.H. Wang, D.J. Wu, L.W. Wang, H.X. Yang*, Hierarchical Grass Like NiCo2O4 Nanoflakes on 3-Dimensional Microporous Electrically Conductive Network with Superior Electrochemical Performance. Energy Procedia, 105, (2017), 4848-4853.

  7. M. Li*, Y.H. Wang, H.X. Yang, P.K. Chu, Hierarchical CoMoO4@Co3O4 Nanocomposite on Ordered Micro-Porous Electrode Plate as Multi-Dimensional Electrode in High-Performance Supercapacitor. J. Mater. Chem. A, 5, (2017), 17312–17324.

  8. M. Li*, H.X. Yang*, Y.H. Wang, L.W. Wang, P.K. Chu, Core-shell CoMoO4@Ni(OH)2 on Ordered Macro-Porous Electrode Plate for High-Performance Supercapacitor. Electrochimica Acta, 283 (2018) 538-547.

  9. D.J. Wu, S.H. Xu, M. Li, et al. Hybrid MnO2/C nano-composites on a macroporous electrically conductive network for supercapacitor electrodes. J. Mater. Chem. A, 3 (2015) 16695.

  10. S.H. Xu, F. Wang, M. Li, L.W. Wang, P.K. Chu, et al., Electrochemical analysis of nickel electrode deposited on silicon microchannel plate, Electrochimica Acta, 90 (2013) 344-349.

  11. S.H. Xu, M. Li, L.W. Wang, P.X. Yang, P.K. Chu, Impedance study of adsorption phenomena on three-dimensional nano-nickel electrode deposited on silicon microchannel plate, Electrochimica Acta, 132, (2014) 165-171.

  12. Y.W. Xu, S.H. Xu, M. Li, Y.P. Zhu, L.W. Wang, P.K. Chu, Electrodeposition of nanostructured MnO2 electrode on three-dimensional nickel/silicon microchannel plates for miniature supetcapacitors, Materials Letters, 126 (2014) 116-118.

  13. F. Wang, S.S. Zhu, M. Li, X.F. Lou, K.H. Hui, S.H. Xu, P.X. Yang, L.W. Wang, Y.W. Chen, P.K. Chu, Anode properties and morphology evolution of three-dimensional lithium-ion battery electrodes comprising Ni-coated Si microchannel plates, Journal of Alloys and Compounds, 563 (2013) 186-191.

  14. Y. Xu, S.H. Xu, M. Li, Y.P. Zhu, L. Zhou, L.W. Wang, P. K. Chu, Electronic double layer supercapacitor based on three-dimensional silicon microchannel plates in organic electrolyte, Materials Research Innovations, 19 (2015) 303-309.

  15. T. Wen, L. Lu, M. Li, H. Zhong, Comparative study of the regeneration characteristics of LiCl and a new mixed liquid desiccant solution, Energy, 163 (2018) 992-1005

  16. 一种基于p型硅微通道表面均匀纳米修饰的方法(发明),申请时间:2015.3.20,专利申请号:201510122203.2。

  17. 一种制作球面硅微通道板的装置(实用新型),授权时间:2015.11.18,中国专利号:201520295497.4。

  18. 一种制作球面硅微通道板的装置及其制备方法(发明),授权时间:2015.11.04,中国专利号:20151023292。