Nanoporous zirconia microspheres prepared by salt-assisted spray drying

Nanoporous zirconia microspheres prepared by salt-assisted spray drying

Abstract Nanoporous zirconia with high surface area and crystallinity has a wide range of industrial applications, such as in inorganic exchangers for ion exchange columns, catalyst substrates, and packing material for HPLC. Spherical particles of crystalline nanoporous zirconia are highly desired i...

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Bibliographic Details
Main Authors: M. Skovgaard, M. Gudik-Sørensen, K. Almdal, A. Ahniyaz
Format: Article
Language:English
Published: Springer 2020-04-01
Series:SN Applied Sciences
Subjects:
Nanoporous materials
ZrO2
Salt-assisted spray drying
Nanomaterials
Ceramics
Dental materials
Online Access:https://doi.org/10.1007/s42452-020-2581-y
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spelling doaj-1c42bff8dcbe46bb8984c8a678d2dd022021-04-04T11:19:24ZengSpringerSN Applied Sciences2523-39632523-39712020-04-01251710.1007/s42452-020-2581-yNanoporous zirconia microspheres prepared by salt-assisted spray dryingM. Skovgaard0M. Gudik-Sørensen1K. Almdal2A. Ahniyaz3AAK Sweden ABDepartment of Energy Conversion and Storage, Technical University of DenmarkDepartment of Chemistry, Technical University of DenmarkDivision of Bioscience and Materials, RISE Research Institutes of SwedenAbstract Nanoporous zirconia with high surface area and crystallinity has a wide range of industrial applications, such as in inorganic exchangers for ion exchange columns, catalyst substrates, and packing material for HPLC. Spherical particles of crystalline nanoporous zirconia are highly desired in various industries due to easy handling of the materials in a fluidized bed. Here, spray drying was adopted to produce spherical nanoporous zirconia powders in both laboratory scale and pilot plant scale. Effect of salts on spray-dried ZrO2 powders and their crystallization behavior was studied. It was found that addition of salts to the zirconia precursors has a huge effect on the crystallization of nanoporous zirconia powders. These results have a great impact on the development of microspheres of nanocrystalline ZrO2 and potentially open up a new opportunity to the low-cost production of porous ceramic microspheres with the salt templating method, in general.https://doi.org/10.1007/s42452-020-2581-yNanoporous materialsZrO2Salt-assisted spray dryingNanomaterialsCeramicsDental materials
collection DOAJ
language English
format Article
sources DOAJ
author M. Skovgaard
M. Gudik-Sørensen
K. Almdal
A. Ahniyaz
spellingShingle M. Skovgaard
M. Gudik-Sørensen
K. Almdal
A. Ahniyaz
Nanoporous zirconia microspheres prepared by salt-assisted spray drying
SN Applied Sciences
Nanoporous materials
ZrO2
Salt-assisted spray drying
Nanomaterials
Ceramics
Dental materials
author_facet M. Skovgaard
M. Gudik-Sørensen
K. Almdal
A. Ahniyaz
author_sort M. Skovgaard
title Nanoporous zirconia microspheres prepared by salt-assisted spray drying
title_short Nanoporous zirconia microspheres prepared by salt-assisted spray drying
title_full Nanoporous zirconia microspheres prepared by salt-assisted spray drying
title_fullStr Nanoporous zirconia microspheres prepared by salt-assisted spray drying
title_full_unstemmed Nanoporous zirconia microspheres prepared by salt-assisted spray drying
title_sort nanoporous zirconia microspheres prepared by salt-assisted spray drying
publisher Springer
series SN Applied Sciences
issn 2523-3963
2523-3971
publishDate 2020-04-01
description Abstract Nanoporous zirconia with high surface area and crystallinity has a wide range of industrial applications, such as in inorganic exchangers for ion exchange columns, catalyst substrates, and packing material for HPLC. Spherical particles of crystalline nanoporous zirconia are highly desired in various industries due to easy handling of the materials in a fluidized bed. Here, spray drying was adopted to produce spherical nanoporous zirconia powders in both laboratory scale and pilot plant scale. Effect of salts on spray-dried ZrO2 powders and their crystallization behavior was studied. It was found that addition of salts to the zirconia precursors has a huge effect on the crystallization of nanoporous zirconia powders. These results have a great impact on the development of microspheres of nanocrystalline ZrO2 and potentially open up a new opportunity to the low-cost production of porous ceramic microspheres with the salt templating method, in general.
topic Nanoporous materials
ZrO2
Salt-assisted spray drying
Nanomaterials
Ceramics
Dental materials
url https://doi.org/10.1007/s42452-020-2581-y
work_keys_str_mv AT mskovgaard nanoporouszirconiamicrospherespreparedbysaltassistedspraydrying
AT mgudiksørensen nanoporouszirconiamicrospherespreparedbysaltassistedspraydrying
AT kalmdal nanoporouszirconiamicrospherespreparedbysaltassistedspraydrying
AT aahniyaz nanoporouszirconiamicrospherespreparedbysaltassistedspraydrying
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