Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453771
Funder
Australian Research Council
Funding Amount
$148,246.00
Summary
Electrochemical Electron Spin Resonance Spectrometer. Electron Spin Resonance Spectroscopy (ESR), is a technique used to determine the presence of free unpaired electrons in a sample. Detection and life time studies of radical species is critical to understanding the mechanisms involved in chemical reaction, sample degradation, performance upon exposure to light and oxidation or reduction processes. Combining ESR with an electrochemical interface permits in-situ studies on how electrons are inje ....Electrochemical Electron Spin Resonance Spectrometer. Electron Spin Resonance Spectroscopy (ESR), is a technique used to determine the presence of free unpaired electrons in a sample. Detection and life time studies of radical species is critical to understanding the mechanisms involved in chemical reaction, sample degradation, performance upon exposure to light and oxidation or reduction processes. Combining ESR with an electrochemical interface permits in-situ studies on how electrons are injected or removed from a sample, providing fundamental information on the processes occurring within the sample. Applications will be in the area of electrofunctional materials, complex biomolecular reactions, organic photovoltaics and new materials for nerve cell regeneration.Read moreRead less
Development of Nanocrystalline Transition Metal Oxide and Polymer-Transition Metal Oxide Composite Materials for Rechargeable Lithium Battery Applications. Recent work by the applicants has shown that nanocrystalline titanates and aluminates hold considerable promise as lithium battery electrodes. Nanocrystalline anatase materials showed considerably greater lithium intercalation ratios compared with their microcrystalline counterparts, and doping with vanadium showed further improvements in ....Development of Nanocrystalline Transition Metal Oxide and Polymer-Transition Metal Oxide Composite Materials for Rechargeable Lithium Battery Applications. Recent work by the applicants has shown that nanocrystalline titanates and aluminates hold considerable promise as lithium battery electrodes. Nanocrystalline anatase materials showed considerably greater lithium intercalation ratios compared with their microcrystalline counterparts, and doping with vanadium showed further improvements in capacity. Sol-gel synthesised V-doped anatase materials produced an initial discharge capacity of 428 Ah/kg compared with only 280 mAh/kg for the undoped anatase electrode in the same Li test cell.In this project different dopants and preparation conditions will be investigated to produce nanocrystalline rutile and aluminate materials as potential candidates for high capacity lithium battery applications.Read moreRead less