Lithium Secondary Batteries Using Modified-Imidazolium Room-Temperature Ionic Liquid
The Journal of Physical Chemistry B2006Vol. 110(21), pp. 10228–10230
Citations Over TimeTop 1% of 2006 papers
Shiro Seki, Yo Kobayashi, Hajime Miyashiro, Yasutaka Ohno, Akira Usami, Yuichi Mita, Nobuo Kihira, Masayoshi Watanabe, Nobuyuki Terada
Abstract
Highly reversible, safe lithium secondary batteries that use imidazolium-cation-based room-temperature ionic liquid as an electrolyte and lithium metal as an anode material were realized by the molecular design. To achieve higher reduction stability, an electron-donating substituent was introduced to promote charge delocalization in the imidazolium cation of room-temperature ionic liquids.
Related Papers
- → Biodegradable Ionic Liquids: Selected Synthetic Applications(2007)36 cited
- → Manganese Dioxide Allylic and Benzylic Oxidation Reactions in Ionic Liquids(2004)25 cited
- → Effect of substituent on the UV-Vis spectra: an extension from disubstituted to multi-substituted benzylideneanilines(2016)18 cited
- → Forming delocalized intermediate states with realistic quantum dots(2012)9 cited
- → Proximity effects in pyridines. Proton chemical shifts in substituted methyl pyridinecarboxylates(1975)18 cited