Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets

Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets

Securing a stable supply of dysprosium (Dy) is one of the major problems facing the automotive industry due to increased Dy consumption and low-volume production. Investigations of new recycling methods are therefore extremely important. In this study, we focused on mesoporous silica particles (MPS)...

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Main Authors: Takamasa Kaneko, Ryouichi Hikosaka, Fukue Nagata, Masahiko Inagaki, Katsuya Kato
Format: Article
Language:English
Published: Taylor & Francis Group 2019-04-01
Series:Journal of Asian Ceramic Societies
Subjects:
Mesoporous silica
sheet type
morphology
dysprosium
adsorption
Online Access:http://dx.doi.org/10.1080/21870764.2019.1606139
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spelling doaj-8e23749a16634bd383f00d5c5bd47f902021-05-02T03:39:21ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642019-04-017221322010.1080/21870764.2019.16061391606139Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheetsTakamasa Kaneko0Ryouichi Hikosaka1Fukue Nagata2Masahiko Inagaki3Katsuya Kato4Aichi Institute of TechnologyNational Institute of Advanced Industrial Science and TechnologyNational Institute of Advanced Industrial Science and TechnologyNational Institute of Advanced Industrial Science and TechnologyNational Institute of Advanced Industrial Science and TechnologySecuring a stable supply of dysprosium (Dy) is one of the major problems facing the automotive industry due to increased Dy consumption and low-volume production. Investigations of new recycling methods are therefore extremely important. In this study, we focused on mesoporous silica particles (MPS) with tunable nanoscale mesopores (2–50 nm), large surface areas, high pore volumes, and abundant surface chemistry. To perform adsorption experiments with several metal ions in the solution, the silica materials were treated via amino functionalization using silane coupling reagents, 3-aminopropyltriethoxysilane (APTES), N-(2-aminoethyl)-3-aminopropyltriethoxysilane (N2APTES), and N-(6-aminohexyl)-3-aminopropyltrimethoxysilane (N6APTES), as well as via carboxyl functionalization using diglycolic acid. Interestingly, MPS sheet-2HNHCOOH, a product with a sheet-like morphology, exhibited enhanced Dy ion adsorption (13.3 µg/mg). The sheets retained approximately100% in the initial capacity after 10 cycles. The results suggest that MPS sheet-2HNHCOOH is an appropriate a candidate material for selective Dy ion adsorption.http://dx.doi.org/10.1080/21870764.2019.1606139Mesoporous silicasheet typemorphologydysprosiumadsorption
collection DOAJ
language English
format Article
sources DOAJ
author Takamasa Kaneko
Ryouichi Hikosaka
Fukue Nagata
Masahiko Inagaki
Katsuya Kato
spellingShingle Takamasa Kaneko
Ryouichi Hikosaka
Fukue Nagata
Masahiko Inagaki
Katsuya Kato
Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
Journal of Asian Ceramic Societies
Mesoporous silica
sheet type
morphology
dysprosium
adsorption
author_facet Takamasa Kaneko
Ryouichi Hikosaka
Fukue Nagata
Masahiko Inagaki
Katsuya Kato
author_sort Takamasa Kaneko
title Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
title_short Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
title_full Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
title_fullStr Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
title_full_unstemmed Effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
title_sort effective adsorption of dysprosium ions on amino and carboxyl functionalized mesoporous silica sheets
publisher Taylor & Francis Group
series Journal of Asian Ceramic Societies
issn 2187-0764
publishDate 2019-04-01
description Securing a stable supply of dysprosium (Dy) is one of the major problems facing the automotive industry due to increased Dy consumption and low-volume production. Investigations of new recycling methods are therefore extremely important. In this study, we focused on mesoporous silica particles (MPS) with tunable nanoscale mesopores (2–50 nm), large surface areas, high pore volumes, and abundant surface chemistry. To perform adsorption experiments with several metal ions in the solution, the silica materials were treated via amino functionalization using silane coupling reagents, 3-aminopropyltriethoxysilane (APTES), N-(2-aminoethyl)-3-aminopropyltriethoxysilane (N2APTES), and N-(6-aminohexyl)-3-aminopropyltrimethoxysilane (N6APTES), as well as via carboxyl functionalization using diglycolic acid. Interestingly, MPS sheet-2HNHCOOH, a product with a sheet-like morphology, exhibited enhanced Dy ion adsorption (13.3 µg/mg). The sheets retained approximately100% in the initial capacity after 10 cycles. The results suggest that MPS sheet-2HNHCOOH is an appropriate a candidate material for selective Dy ion adsorption.
topic Mesoporous silica
sheet type
morphology
dysprosium
adsorption
url http://dx.doi.org/10.1080/21870764.2019.1606139
work_keys_str_mv AT takamasakaneko effectiveadsorptionofdysprosiumionsonaminoandcarboxylfunctionalizedmesoporoussilicasheets
AT ryouichihikosaka effectiveadsorptionofdysprosiumionsonaminoandcarboxylfunctionalizedmesoporoussilicasheets
AT fukuenagata effectiveadsorptionofdysprosiumionsonaminoandcarboxylfunctionalizedmesoporoussilicasheets
AT masahikoinagaki effectiveadsorptionofdysprosiumionsonaminoandcarboxylfunctionalizedmesoporoussilicasheets
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