▎ 摘　　要

Challenges to developing lithium-ion batteries include achieving high-energy density, low irreversibility, and lithium-ion transportation at electrode material interfaces. Numerous studies have used ameliorative electrode surfaces, composite materials, or modified electrolytes to improve battery performance. This study creates an ionic host solid-electrolyte interface (SEI) material using electrochemical self-polymerization. This ionic host SEI is fabricated with carbon oxide-containing functional groups -C-O- and -O-C(O)- on a reduced graphene oxide (rGO) anode surface to improve the performance of lithium-ion battery, including reversible capacity and c-rate ability. The results show that the ionic host SEIs on rGO material provides additional 84% of energy density increment. Compared to the graphite material, the energy density can only be increased 3.7% because of the lack of functional groups on the graphite surface. By using this technique to fabricate functional groups on electrode surfaces and prepare suitable electrolyte additives, lithium-ion batteries perform better and exceed previous manufacturing processes. (C) 2013 Elsevier Ltd. All rights reserved.