In Situ Engineering of the Electrode-Electrolyte Interface for Stabilized Overlithiated Cathodes

Date Published	01/2017
Publication Type	Journal Article

Authors	Tyler Evans Daniela Molina Piper Huaxing Sun Timothy Porcelli Seul Cham Kim Sang Sub Han Yong Seok Choi Chixia Tian Dennis Nordlund Marca M Doeff Chunmei Ban Sung-Jin Cho Kyu Hwan Oh Se-Hee Lee
DOI	10.1002/adma.201604549
Abstract	The first‐ever demonstration of stabilized Si/lithium–manganese‐rich full cells , capable of retaining >90% energy over early cycling and >90% capacity over more than 750 cycles at the 1C rate (100% depth‐of‐discharge), is made through the utilization of a modified ionic‐liquid electrolyte capable of forming a favorable cathode–electrolyte interface.
Journal	Advanced Materials
Volume	29
Year of Publication	2017
Issue	10
Pagination	1604549
Short Title	Adv. Mater.
Refereed Designation	Refereed
Organizations	Energy Storage and Distributed Resources Division Energy Storage Group Battery Group
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