Design of multifunctional nanoporous electrodes for energy storage applications /
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(Published version)
Date
2017
Authors
Joseph, Stalin,
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
thesis
Citation
Statement of Responsibility
Conference Name
Abstract
In this PhD project, I solved some of these challenges by developing highly graphitic nanoporous carbon electrode materials with a high surface area and ordered porous structure through nanohard templating method using a low cost carbon rich precursors such as Coco-Cola and highly ordered mesoporous silica as a sacrificial template. It is expected that this simple strategy helps not only to enhance the conductivity but also reduce the cost of the material.
School/Discipline
University of South Australia. Future Industries Institute.
Future Industries Institute.
Future Industries Institute.
Dissertation Note
Thesis (PhD(Environmental Science and Engineering))--University of South Australia, 2017.
Provenance
Copyright 2017 Stalin Joseph.
Description
1 ethesis (xiii, 107 pages) :
illustrations (some colour), charts (some colour)
Includes bibliographical references.
illustrations (some colour), charts (some colour)
Includes bibliographical references.
Access Status
506 0#$fstar $2Unrestricted online access