Abstract

Chemical components of surface films of deposited lithium on nickel substrates in electrolytes with LiN (LiTFSI), LiN (LiBETI), solutes, and tetrahydrofuran solvents were characterized by Fourier-transform infrared, two-dimensional nuclear magnetic resonance (2D NMR), X-ray photoelectron spectroscopy, evolved gas analysis, and ion chromatograph in order to understand the electrochemical performance of lithium imide/cyclic ether-based electrolytes. The top layers of the surface film were polymer constituents, and LiF. The inner layers of the surface film consisted of and carbide species. In imide/cyclic ether-based electrolytes, and as outer layers, and as the inner layer were formed on a nickel substrate as reductive constituents of imide solute. We found that organic surface layers consisted of lithium etoxides, lithium ethylene dicarbonate polyethylene oxide, and lithium ethylene dicarbonate containing an oxyethylene unit by and 2D NMR. Li cycling efficiency affects not only the deposited lithium morphology but also chemical components. © 2004 The Electrochemical Society. All rights reserved.