欢迎访问山西大学激光光谱研究所
王梅
发布时间:2018-05-10 浏览:
王梅  
教授  

  

教育背景:

1. 2014年9月到2017年8月,韩国成均馆大学  博士后研究员

2. 2010年9月到2014年8月, 韩国成均馆大学  能源科学系工学博士

3. 2006年9月到2010年6月, 山东大学   化学系理学学士

研究方向:

 1.器件开发:超级电容器、锂离子电池等储能器件;量子点发光二极管
全固态超级电容器;基于石墨烯电极材料的超级电容器;线型超级电容器;石墨烯量子点发光二极管;金属氧化物电极超级电容器;石墨烯材料在锂离子电极材料中的应用
2.复合材料:碳纳米材料、金属化合物及复合材料;高分子复合材料的研究
碳纳米管气相沉积制备及性质研究;石墨烯气相沉积、液相剥离制备及性质研究;石墨烯量子点;石墨烯/高分子复合薄膜及泡沫复合材料的制备研究;碳纳米管抗张强度研究;水溶性染料吸附;石墨烯纤维;透明电磁干扰材料;纳米界面化学
3.工程工艺:电泳沉积法制备导电膜材料; 3D打印技术与材料研究
电泳沉积法制备石墨烯导电薄膜和石墨烯/炭黑复合薄膜;石墨烯/高分子复合材料的电泳沉积研究;3D打印墨水研究;3D打印锂硫电池

        承担项目       :      

韩国国家研究基金委新进研究者基金项目:3D石墨烯/碳纳米管强化结构用于储能器件

 

 

办公地址:激光光谱研究所311

电子邮箱:wangmei@sxu.edu.cn 

近期论文成果:

1.  M. WangJ. Nam*, et alAll-solid-state reduced graphene oxide supercapacitor with large volumical capacitance and ultra-long stability prepared by electrophoretic deposition method. ACS Appl. Mater. Interfaces, 2015, 7, 1348-1354. (SCI一区Top/IF: 7.504)

2. M. Wang, Y. Ma*. Nitrogen-doped graphene forests as electrodes for high-performance wearable supercapacitors. Electrochim. Acta, 2017, 250, 320-326. (SCI一区Top/IF: 4.798)SCI二区/IF: 4.259)

 3. Y. Ma, M. Wang (共同第一作者), H. Chae*, et al. A flexible supercapacitor based on vertically oriented ‘Graphene Forest’ electrodes. J. Mater. Chem. A, 2015, 3, 21875. (SCI一区Top/IF: 8.867)

 4. M. Wang, J. Nam*, et al. An interleaved porous laminate composed of reduced graphene oxide sheets and carbon black spacers by in situ electrophoretic deposition. RSC Adv., 2014, 4, 3284. (SCI二区/IF:3.108)

 5. M. WangJ. Nam*, et alA strategy to synthesize graphene-incorporated lignin polymer composite materials with uniform graphene dispersion and covalently bonded interface engineering. Korea-Australia Rheology Journal2017, 29(3), 207-213. (SCI四区/IF: 1.000)

 6. J. Yu, M. Wang, T. Chou*, et alUltrahigh-Rate Wire-Shaped Supercapacitor Based on Graphene Fiber.Carbon, 2017, 119, 332-338. (SCI一区Top/IF: 6.337)

 7. H. Kim, M. Wang, J. Suhr*, et al. Tensile properties of millimeter-long multi-walled carbon nanotubes. Sci. Rep. 2017, 7, 9512. (SCI二区/IF: 4.259

 8. H. Ding, M. Wang, H. Liu*, et alGold hierarchical nanostructures formed at the solid/liquid interfaces via electroless deposition and their SERS propertiesColloids and Surfaces A: Physicochem. Eng. Aspects, 2011, 387, 1-9. (SCI三区/IF: 2.714)

 9. Y. C. Kim, H. Min, J. Yu,  S. Y. Hong, M. Wang, J. Nam*, et al. Forced infiltration of silica beads into densely-packed glass fibre beds for thin composite laminates. RSC Adv., 2016, 6, 91341-91348. (SCI二区/IF:3.108)

 10.  M. Wang, Y. Ma*, et alBroad-spectrum detection of glutamate using a chitosan-derived graphitic foam. 2018, in preparation.

 11.  Y. Ma, M. Wang*, H. Chae*, et al. Morphology Control of Nanostructured Vertically-Oriented Graphene in a Plasma Enhanced Chemical Vapor Deposition Process. 2018, in preparation. 

    国际学术会议发表

    1.M. Wang, et al. Bio-mimicking resilient N-doped graphene aerogels derived from freeze-cast chitosan/graphene foams. 2017 Spring Conference of the Korean Society for Composite Materials, 2017, S. Korea. (口头发表)

    2. M. Wang, et al. Bulk N-doped graphene aerogels derived from freeze-cast chitosan/graphene foams. 10th Asian-Australasian Conference on Composite Materials (ACCM-10), 2016, S. Korea. (口头发表)

       3. M. Wang, et al. A Large-scale, Self-standing and Electrically-conductive Reduced Graphene Oxide Membrane Fabricated by Electrophoretic Deposition Method. 2014 Collaborative Conference on Materials Research (CCMR), 2014, S. Korea. (口头发表)

    4.M. Wang, et al. Interleaved Reduced Graphene Oxide Porous Membrane Electrode Spaced with Carbon Black Particles Fabricated by In-situ Electrophoretic Deposition for Organic Electrolyte Supercapacitors. Colloids & Energy 2013, 2013, China. (展板发表)

      5.M. Wang, et al. Preparation of large-area graphite membrane by electrophoretic deposition. Chemical Engineering Conference of Korea, 2012, S. Korea. (展板发表) 


专利:

  •   J. Suhr, M. Wang, S. Hong, S. Cho.  (Method of fabricating graphene aerogel using freeze casted chitosan foam). 韩国专利申请号10-2016-0169491. 申请日期2016.12.13.