金性洙,教授,韩国忠南国立大学
下载亚博的联系方式
电话: 82-42-821-8605
邮箱:kimss@cnu.ac.kr
学习工作经历
8/1993 korea university(material science and engineering) bachelor
8/1995 korea university(material science and engineering) master
9/2001 tokyo institute of technology(applied chemistry) ph.d
8/1995-8/2010 samsung sdi researcher
研究方向
二次电池
主要学术和社会兼职
korean electrochemical society
korean battery society
学术成果
1. education center of emerging energy technology on climate change : bk21 project, ministry of education of korea
2. commercialization technologies of materials and related components for lib anode based on surface treatment : ministry of trage, industry and energy of korea
3. development of high energy density lithium ion battery technology for electric vehicles capable of high rate charging : ministry of trade, industry and energy of korea
4. development of manufacturing technology/equipment for high capacity silicon-based anode material with at least 85% of ice through metal melting process : ministry of trade, industry and energy of korea
5. secondary battery industry professional manpower training project : ministry of trade, industry and energy of korea
1. journal of alloys and compounds, volume 882, 15 november 2021, 160558, 10.1016/j.jallcom.2021.16055
grain size effect of nanocrystalline-si embedded in buffering alloy-matrix as anode for li-ion batteries
2. journal of power source , 506, 2021, 230050, 10.1016/j.jpowsour.2021.230050
li-incorporated porous carbon monoliths derived from carboxymethyl cellulose as anode material for high power lithium-ion batteries
3. electrochimica acta 24 june 2021, 138813, 10.1016/j.electacta.2021.138813
understanding the relationship of electrochemical properties and structure of microstructure-controlled core shell gradient type ni-rich cathode material by single particle measurement
4. international journal of energy research volume 45, 6 (2021): 9530-9540, 10.1002/er.6479
facile fabrication of polyacrylonitrile-derived porous carbon beads via electron beam irradiation as anode materials for li-ion batteries
5. acs applied materials & interfaces, 2020, 12, 17406-17414, 10.1021/acsami.9b21997
pragmatic approach to design silicon alloy anode by equilibrium method
6. materials today energy, 16 (2020) 100397, 10.1016/j.mtener.2020.100397
synergistic effect of 3d current collector structure and ni inactive matrix on the electrochemical performances of sn-based anodes for lithium-ion batteries
