The results of the photoelectron spectra for the oxysulfide glasses in the Li2S-B2O3 (-LiBr) spotems are discussed. The peak resolved S2p spectra show the existences of bridging and non-bridging S. The values of the b...The results of the photoelectron spectra for the oxysulfide glasses in the Li2S-B2O3 (-LiBr) spotems are discussed. The peak resolved S2p spectra show the existences of bridging and non-bridging S. The values of the binding energy of Lits indicate the chemical environmemts of Li+ ions.展开更多
The various theoretical and experimental models for ion conduction mechanism of fast ion conducting (FIC) glass electrolytes have been reported in the present review paper. Some characterization techniques of FIC gl...The various theoretical and experimental models for ion conduction mechanism of fast ion conducting (FIC) glass electrolytes have been reported in the present review paper. Some characterization techniques of FIC glasses are presented. The experimental methods for determination of some ion transport parameters viz ionic conductivity (σ), ionic mobility (μ), mobile ion concentration (n), ionic drift velocity (Vd), ionic transference number (tion) and activation energies of FIC glasses are explained. The solid state battery fabrication by using some FIC glasses is also reported.展开更多
文摘The results of the photoelectron spectra for the oxysulfide glasses in the Li2S-B2O3 (-LiBr) spotems are discussed. The peak resolved S2p spectra show the existences of bridging and non-bridging S. The values of the binding energy of Lits indicate the chemical environmemts of Li+ ions.
基金DST,New Delhi for providing financial assistance through the Fast Track Young Scientist Research Project(No.SR/FTP/PS-23/2009)
文摘The various theoretical and experimental models for ion conduction mechanism of fast ion conducting (FIC) glass electrolytes have been reported in the present review paper. Some characterization techniques of FIC glasses are presented. The experimental methods for determination of some ion transport parameters viz ionic conductivity (σ), ionic mobility (μ), mobile ion concentration (n), ionic drift velocity (Vd), ionic transference number (tion) and activation energies of FIC glasses are explained. The solid state battery fabrication by using some FIC glasses is also reported.
