Ultrafine Mix-Phase SnO-SnO<sub>2</sub> Nanoparticles Anchored on Reduced Graphene Oxide Boost Reversible Li-Ion Storage Capacity beyond Theoretical Limit.

导出 LinkOut

翻译打印收藏纠错

第一作者： Navpreet,Kamboj

第一单位： Institute of Nano Science and Technology, Sector-81, Mohali 140306, Punjab, India.

作者： Navpreet,Kamboj ^[1] ; Bharati,Debnath ^[2] ; Sakshi,Bhardwaj ^[1] ; Tanmoy,Paul ^[3] ; Nikhil,Kumar ^[2] ; Satishchandra,Ogale ^[4] ; Kingshuk,Roy ^[2] ; Ramendra Sundar,Dey ^[1]

作者单位： Institute of Nano Science and Technology, Sector-81, Mohali 140306, Punjab, India. ^[1] Research Institute for Sustainable Energy, TCG Centres for Research and Education in Science and Technology, BIPL Building, Salt Lake Sector V 700091, Kolkata, India. ^[2] Department of Condensed Matter Physics and Material Science, S. N. Bose National Centre for Basic Sciences, Kolkata 700106, India. ^[3] Research Institute for Sustainable Energy, TCG Centres for Research and Education in Science and Technology, BIPL Building, Salt Lake Sector V 700091, Kolkata, India.;Department of Physics and Centre for Energy Science, Indian Institute of Science Education and Research, Pune 411008, India. ^[4]

关键词 Li-ion battery SnO-SnO2@rGO LIB anode energy storage system high reversible capacity mix-phase tin-oxide nanoparticles rate capability

DOI 10.1021/acsnano.2c07008

PMID 36094392

发布时间 2022-09-30

翻译满意度评价：

准确一般字义偏差语意偏离译文作用小提交