Click here to skip to this page's main content.

New to the Open Library? — Learn how it works
Last edited by WorkBot
January 24, 2010 | History

The influence of processing parameters on the electrochemical performance of sulphate based cathode materials 1 edition

The influence of processing parameters on the electrochemical performa ...
Marko Milojevic

Read

No readable version available.

Lists

You could add The influence of processing parameters on the electrochemical performance of sulphate based cathode materials to a list if you log in.
Fiddlesticks. There's no description for this book yet. Can you help?
There is only 1 edition record, so we'll show it here...  •  Add edition?

The influence of processing parameters on the electrochemical performance of sulphate based cathode materials.

Published 2006 .
Written in English.

About the Book

This project focuses on synthesis, characterisation and evaluation of the electrochemical performance of Li2Fe2(SO4) 3 as a potential novel cathode material. A sol-gel technique has been used as a basis for the synthesis method in order to control the morphology of the synthesised material. Physical characterisation included SEM and XRD. Battery cells were constructed within a controlled atmosphere glove box and the electrochemical behaviour evaluated using a computer controlled cyclic facility for up to 50 cycles at different discharge rates. Several approaches, including carbon ball-milling and the use of a nickel foam charge collector, were taken to improve the electrochemical performance of the material since its primary weakness was found to be low electrical conductivity. Through the carbon ball-milling approach the specific capacity of the material was raised to 40mAh/g from initial results of 15mAh/g. The operating voltage was also stabilized at 3.6V.

Edition Notes

Source: Masters Abstracts International, Volume: 44-06, page: 2958.

Thesis (M.A.Sc.)--University of Toronto, 2006.

Electronic version licensed for access by U. of T. users.

ROBARTS MICROTEXT copy on microfiche.

The Physical Object

Pagination
77 leaves.
Number of pages
77

ID Numbers

Open Library
OL19215182M
ISBN 13
9780494161753

History Created December 11, 2009 · 2 revisions Download catalog record: RDF / JSON

January 24, 2010 Edited by WorkBot add more information to works
December 11, 2009 Created by WorkBot add works page