Preparation of Carbon-Based Materials for Water Remediation

Driven by the desire of low cost and green synthesis, this study focuses on the preparation of large-surface-area porous carbons with controllable features (e.g. N or N, S doping, cobalt modification), using cheaper carbon precursors. The resulting porous-carbon-based nanoarchitectures can serve as...

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Bibliographic Details
Main Author:	Tian, Wenjie
Format:	Thesis
Published:	Curtin University 2018
Online Access:	http://hdl.handle.net/20.500.11937/70444

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author	Tian, Wenjie
author_facet	Tian, Wenjie
author_sort	Tian, Wenjie
building	Curtin Institutional Repository
collection	Online Access
description	Driven by the desire of low cost and green synthesis, this study focuses on the preparation of large-surface-area porous carbons with controllable features (e.g. N or N, S doping, cobalt modification), using cheaper carbon precursors. The resulting porous-carbon-based nanoarchitectures can serve as excellent adsorbents and efficient catalysts in advanced oxidation processes for effective removal of pollutants in wastewater, as well as materials for CO2 uptake, supercapacitors and oxygen reduction reaction.
first_indexed	2025-11-14T10:44:51Z
format	Thesis
id	curtin-20.500.11937-70444
institution	Curtin University Malaysia
institution_category	Local University
last_indexed	2025-11-14T10:44:51Z
publishDate	2018
publisher	Curtin University
recordtype	eprints
repository_type	Digital Repository
spelling	curtin-20.500.11937-704442020-09-21T01:15:08Z Preparation of Carbon-Based Materials for Water Remediation Tian, Wenjie Driven by the desire of low cost and green synthesis, this study focuses on the preparation of large-surface-area porous carbons with controllable features (e.g. N or N, S doping, cobalt modification), using cheaper carbon precursors. The resulting porous-carbon-based nanoarchitectures can serve as excellent adsorbents and efficient catalysts in advanced oxidation processes for effective removal of pollutants in wastewater, as well as materials for CO2 uptake, supercapacitors and oxygen reduction reaction. 2018 Thesis http://hdl.handle.net/20.500.11937/70444 Curtin University fulltext
spellingShingle	Tian, Wenjie Preparation of Carbon-Based Materials for Water Remediation
title	Preparation of Carbon-Based Materials for Water Remediation
title_full	Preparation of Carbon-Based Materials for Water Remediation
title_fullStr	Preparation of Carbon-Based Materials for Water Remediation
title_full_unstemmed	Preparation of Carbon-Based Materials for Water Remediation
title_short	Preparation of Carbon-Based Materials for Water Remediation
title_sort	preparation of carbon-based materials for water remediation
url	http://hdl.handle.net/20.500.11937/70444

Preparation of Carbon-Based Materials for Water Remediation

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