MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL

MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL

Ph.D

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Bibliographic Details
Main Author: CHEW KIA JIA BENNY
Other Authors: CHEMISTRY
Format: Theses and Dissertations
Language:English
Published: 2017
Subjects:
MOF, NANOPARTICLE, MAGNETIC, CATALYSIS, BATTERY, ANODE
Online Access:http://scholarbank.nus.edu.sg/handle/10635/136501
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Institution: National University of Singapore
Language: English
id sg-nus-scholar.10635-136501
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spelling sg-nus-scholar.10635-1365012017-09-01T09:33:05Z MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL CHEW KIA JIA BENNY CHEMISTRY LIU XIAOGANG MOF, NANOPARTICLE, MAGNETIC, CATALYSIS, BATTERY, ANODE Ph.D DOCTOR OF PHILOSOPHY 2017-08-31T18:00:35Z 2017-08-31T18:00:35Z 2017-01-11 Thesis CHEW KIA JIA BENNY (2017-01-11). MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL. ScholarBank@NUS Repository. http://scholarbank.nus.edu.sg/handle/10635/136501 NOT_IN_WOS en
institution National University of Singapore
building NUS Library
country Singapore
collection ScholarBank@NUS
language English
topic MOF, NANOPARTICLE, MAGNETIC, CATALYSIS, BATTERY, ANODE
spellingShingle MOF, NANOPARTICLE, MAGNETIC, CATALYSIS, BATTERY, ANODE
CHEW KIA JIA BENNY
MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
description Ph.D
author2 CHEMISTRY
author_facet CHEMISTRY
CHEW KIA JIA BENNY
format Theses and Dissertations
author CHEW KIA JIA BENNY
author_sort CHEW KIA JIA BENNY
title MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
title_short MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
title_full MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
title_fullStr MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
title_full_unstemmed MULTICOMPOSITIONAL MOF AND MAGNETIC NANOPARTICLE-DERIVED HYBRID MATERIALS FOR FUNCTIONAL APPLICATIONS IN CATALYSIS AND BATTERY ANODE MATERIAL
title_sort multicompositional mof and magnetic nanoparticle-derived hybrid materials for functional applications in catalysis and battery anode material
publishDate 2017
url http://scholarbank.nus.edu.sg/handle/10635/136501
_version_ 1681097771136843776

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