Facile processing of ?-alumina for potential energy storage

Facile processing of ?-alumina for potential energy storage

Mesoporous ?-alumina with relatively high surface area of ca. 590 m2/g and pore size of ca. 2.0 nm to ca. 9.7 nm were successfully processed using facile and cost-effective method in the presence of renewable, low-cost templates. Controlled addition of water during the processing of the materials wa...

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Main Authors: Misran H., Zini F.A.M., Salim M.A., Ramesh S.
Other Authors: 6506899840
Format: Conference paper
Published: 2023
Subjects:
?-alumina
Energy storage
Low-cost
Surface area
Adsorption
Alumina
Manufacture
Porosity
Alumina precursor
Competitive adsorption
Cost-effective methods
High surface area
Hydrolysis rate
Mesoporous
Nanoparticulates
Relative crystallinity
Textural porosity
Mesoporous materials
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-30325
record_format dspace
spelling my.uniten.dspace-303252023-12-29T15:46:42Z Facile processing of ?-alumina for potential energy storage Misran H. Zini F.A.M. Salim M.A. Ramesh S. 6506899840 36982594200 57197124320 41061958200 ?-alumina Energy storage Low-cost Surface area Adsorption Alumina Energy storage Manufacture Porosity Alumina precursor Competitive adsorption Cost-effective methods High surface area Hydrolysis rate Low-cost Mesoporous Nanoparticulates Relative crystallinity Surface area Textural porosity Mesoporous materials Mesoporous ?-alumina with relatively high surface area of ca. 590 m2/g and pore size of ca. 2.0 nm to ca. 9.7 nm were successfully processed using facile and cost-effective method in the presence of renewable, low-cost templates. Controlled addition of water during the processing of the materials was found to control the rapid hydrolysis rate of alumina precursors resulting in mesoporous formation. In addition, these materials porosity was made up from framework porosity as well as textural porosity given rise from the aggregations of ?-alumina nanoparticulates. Regardless of the materials specific surface area value, the competitive adsorption amount of energy gas in 68 % humidity environment increased as relative crystallinity of the materials increased. � (2012) Trans Tech Publications, Switzerland. Final 2023-12-29T07:46:41Z 2023-12-29T07:46:41Z 2012 Conference paper 10.4028/www.scientific.net/AMR.576.402 2-s2.0-84869437519 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84869437519&doi=10.4028%2fwww.scientific.net%2fAMR.576.402&partnerID=40&md5=d8b3075aed2408746d74b5b05384fc81 https://irepository.uniten.edu.my/handle/123456789/30325 576 402 405 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic ?-alumina
Energy storage
Low-cost
Surface area
Adsorption
Alumina
Energy storage
Manufacture
Porosity
Alumina precursor
Competitive adsorption
Cost-effective methods
High surface area
Hydrolysis rate
Low-cost
Mesoporous
Nanoparticulates
Relative crystallinity
Surface area
Textural porosity
Mesoporous materials
spellingShingle ?-alumina
Energy storage
Low-cost
Surface area
Adsorption
Alumina
Energy storage
Manufacture
Porosity
Alumina precursor
Competitive adsorption
Cost-effective methods
High surface area
Hydrolysis rate
Low-cost
Mesoporous
Nanoparticulates
Relative crystallinity
Surface area
Textural porosity
Mesoporous materials
Misran H.
Zini F.A.M.
Salim M.A.
Ramesh S.
Facile processing of ?-alumina for potential energy storage
description Mesoporous ?-alumina with relatively high surface area of ca. 590 m2/g and pore size of ca. 2.0 nm to ca. 9.7 nm were successfully processed using facile and cost-effective method in the presence of renewable, low-cost templates. Controlled addition of water during the processing of the materials was found to control the rapid hydrolysis rate of alumina precursors resulting in mesoporous formation. In addition, these materials porosity was made up from framework porosity as well as textural porosity given rise from the aggregations of ?-alumina nanoparticulates. Regardless of the materials specific surface area value, the competitive adsorption amount of energy gas in 68 % humidity environment increased as relative crystallinity of the materials increased. � (2012) Trans Tech Publications, Switzerland.
author2 6506899840
author_facet 6506899840
Misran H.
Zini F.A.M.
Salim M.A.
Ramesh S.
format Conference paper
author Misran H.
Zini F.A.M.
Salim M.A.
Ramesh S.
author_sort Misran H.
title Facile processing of ?-alumina for potential energy storage
title_short Facile processing of ?-alumina for potential energy storage
title_full Facile processing of ?-alumina for potential energy storage
title_fullStr Facile processing of ?-alumina for potential energy storage
title_full_unstemmed Facile processing of ?-alumina for potential energy storage
title_sort facile processing of ?-alumina for potential energy storage
publishDate 2023
_version_ 1806427549519052800

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