Access Restriction

Author Saravanan, T. ♦ Thirunakaran, R. ♦ Stephan, A. M. ♦ Renganathan, N. G. ♦ Murali, K. R. ♦ Subramanian, V. ♦ Munayandi, N.
Source CSIR-Central Electrochemical Research Institute
Content type Text
Publisher Central Electrochemical Research Institute
File Format PDF
Copyright Year ©1998
Language English
Subject Domain (in DDC) Natural sciences & mathematics ♦ Chemistry & allied sciences ♦ Physical chemistry
Subject Keyword Electrochemical Materials Science ♦ Electrochemical Power Sources
Abstract In view of h~b specific capacity, possibility of lithium uptake to 3.0 Li mol with respect to cycleability, structural stability, high rate capability (due to high diffusion of lithium) and deep dischllrgeability below 1.6 V lithium vanadate is preferred to V,013 In lithium secondary cells. To have materials of less particle size, sol-gel synthesis coupled with proper dehydration processes are followed to synthesize LiV308 and it is characterized by XRD and FfIR analysis. Results are presented in this communication.
Educational Use Research
Education Level UG and PG
Learning Resource Type Article
Publisher Date 1998-01-01
Journal PeerReviewed