Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis

Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis

Mesoporous bioactive glass (MBG) is considered as one of the most important materials in the field of bone implants and drug carriers, owing to its superior bioactivity. In previous studies, tri-block surfactants (e.g., F127 and P123) were commonly used as pore-forming agents. However, the use of su...

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Main Authors: Bo-Jiang Hong, Chih-Wei Hsiao, Fufa Fetene Bakare, Jung-Ting Sun, Shao-Ju Shih
Format: Article
Language:English
Published: MDPI AG 2018-06-01
Series:Materials
Subjects:
mesoporous bioactive glass
spray pyrolysis
acetic acid
Online Access:http://www.mdpi.com/1996-1944/11/6/963
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spelling doaj-8fa8af45308b4f85bed6bff665ae90032020-11-25T00:26:18ZengMDPI AGMaterials1996-19442018-06-0111696310.3390/ma11060963ma11060963Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray PyrolysisBo-Jiang Hong0Chih-Wei Hsiao1Fufa Fetene Bakare2Jung-Ting Sun3Shao-Ju Shih4Department of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, TaiwanDepartment of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, TaiwanDepartment of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, TaiwanDepartment of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, TaiwanDepartment of Materials Science and Engineering, National Taiwan University of Science and Technology, Taipei 10607, TaiwanMesoporous bioactive glass (MBG) is considered as one of the most important materials in the field of bone implants and drug carriers, owing to its superior bioactivity. In previous studies, tri-block surfactants (e.g., F127 and P123) were commonly used as pore-forming agents. However, the use of surfactants may cause serious problems such as micelle aggregation and carbon contamination and thus decrease bioactivity. Therefore, in this study, we demonstrated the synthesis of MBG using acetic acid (HAc) as a pore-forming agent to overcome the disadvantages caused by surfactants. Both untreated and HAc-treated BG powders were synthesized using spray pyrolysis and various characterizations were carried out. The results show that a mesoporous structure was successfully formed and the highest specific surface area of ~230 m2/g with improved bioactivity was reported.http://www.mdpi.com/1996-1944/11/6/963mesoporous bioactive glassspray pyrolysisacetic acid
collection DOAJ
language English
format Article
sources DOAJ
author Bo-Jiang Hong
Chih-Wei Hsiao
Fufa Fetene Bakare
Jung-Ting Sun
Shao-Ju Shih
spellingShingle Bo-Jiang Hong
Chih-Wei Hsiao
Fufa Fetene Bakare
Jung-Ting Sun
Shao-Ju Shih
Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
Materials
mesoporous bioactive glass
spray pyrolysis
acetic acid
author_facet Bo-Jiang Hong
Chih-Wei Hsiao
Fufa Fetene Bakare
Jung-Ting Sun
Shao-Ju Shih
author_sort Bo-Jiang Hong
title Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
title_short Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
title_full Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
title_fullStr Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
title_full_unstemmed Effect of Acetic Acid Concentration on Pore Structure for Mesoporous Bioactive Glass during Spray Pyrolysis
title_sort effect of acetic acid concentration on pore structure for mesoporous bioactive glass during spray pyrolysis
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2018-06-01
description Mesoporous bioactive glass (MBG) is considered as one of the most important materials in the field of bone implants and drug carriers, owing to its superior bioactivity. In previous studies, tri-block surfactants (e.g., F127 and P123) were commonly used as pore-forming agents. However, the use of surfactants may cause serious problems such as micelle aggregation and carbon contamination and thus decrease bioactivity. Therefore, in this study, we demonstrated the synthesis of MBG using acetic acid (HAc) as a pore-forming agent to overcome the disadvantages caused by surfactants. Both untreated and HAc-treated BG powders were synthesized using spray pyrolysis and various characterizations were carried out. The results show that a mesoporous structure was successfully formed and the highest specific surface area of ~230 m2/g with improved bioactivity was reported.
topic mesoporous bioactive glass
spray pyrolysis
acetic acid
url http://www.mdpi.com/1996-1944/11/6/963
work_keys_str_mv AT bojianghong effectofaceticacidconcentrationonporestructureformesoporousbioactiveglassduringspraypyrolysis
AT chihweihsiao effectofaceticacidconcentrationonporestructureformesoporousbioactiveglassduringspraypyrolysis
AT fufafetenebakare effectofaceticacidconcentrationonporestructureformesoporousbioactiveglassduringspraypyrolysis
AT jungtingsun effectofaceticacidconcentrationonporestructureformesoporousbioactiveglassduringspraypyrolysis
AT shaojushih effectofaceticacidconcentrationonporestructureformesoporousbioactiveglassduringspraypyrolysis
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