Only limited information is available regarding the manner in which cyclic carbonate and ester solvents coordinate Li+ cations in electrolyte solutions for lithium batteries. One approach to gleaning significant insight into these interactions is to examine crystalline solvate structures. To this end, eight new solvate structures are reported with ethylene carbonate, ?-butyrolactone and ?-valerolactone: (EC)3:LiClO4, (EC)2:LiClO4, (EC)2:LiBF4, (GBL)4:LiPF6, (GBL)1:LiClO4, (GVL)1:LiClO4, (GBL)1:LiBF4 and (GBL)1:LiCF3SO3. The crystal structure of (EC)1:LiCF3SO3 is also re-reported for comparison. These structures enable the factors which govern the manner in which the ions are coordinated and the ion/solvent packing—in the solid-state—to be scrutinized in detail.
Revised: December 30, 2014 |
Published: November 13, 2014
Citation
Seo D.M., T. Afroz, J.L. Allen, P.D. Boyle, P.C. Trulove, H.C. De Long, and W.A. Henderson. 2014.Structural Interactions within Lithium Salt Solvates: Cyclic Carbonates and Esters.Journal of Physical Chemistry C 118, no. 45:25884-25889.PNNL-SA-104019.doi:10.1021/jp5079168