SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS

SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS

Nanoscale MgO powders were fabricated via a microwave-induced solution combustion process using Mg(NO3)2 and starch as starting materials. Effects of the relative fuel-to-oxidant ratios (φe = 1.1, 1.0, 0.9 and 0.8, respectively) on characteristics of MgO nanoparticles were also investigated. The XRD...

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Main Authors: JIAHAI BAI, FANTAO MENG, CHUNCHENG WEI, YUNXIA ZHAO, HUIHUI TAN, JUNCHENG LIU
Format: Article
Language:English
Published: University of Chemistry and Technology, Prague 2011-03-01
Series:Ceramics-Silikáty
Subjects:
MgO
Solution combustion synthesis
Nanocrystalline
Specific surface area
Online Access:http://www.ceramics-silikaty.cz/2011/pdf/2011_01_20.pdf
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spelling doaj-a97e216d256640f7ac0b23ac05359c982020-11-24T21:35:20ZengUniversity of Chemistry and Technology, PragueCeramics-Silikáty0862-54681804-58472011-03-015512025SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERSJIAHAI BAIFANTAO MENGCHUNCHENG WEIYUNXIA ZHAOHUIHUI TANJUNCHENG LIUNanoscale MgO powders were fabricated via a microwave-induced solution combustion process using Mg(NO3)2 and starch as starting materials. Effects of the relative fuel-to-oxidant ratios (φe = 1.1, 1.0, 0.9 and 0.8, respectively) on characteristics of MgO nanoparticles were also investigated. The XRD analysis discloses that MgO nanocrystalline are successfully synthesized and the crystalline size of MgO increases remarkably with increasing of φe from 0.8 to 1.1. TEM images reveal that nanoporous agglomerates of MgO nanocrystalline are formed in the powders. Experimental results show that the average particles’ size of the powders decreases significantly as φe increases from 0.8 to 1.1. However, the powders from the precursors with φe equal to 1.0 exhibit larger specific surface area as compared the other powders.http://www.ceramics-silikaty.cz/2011/pdf/2011_01_20.pdfMgOSolution combustion synthesisNanocrystallineSpecific surface area
collection DOAJ
language English
format Article
sources DOAJ
author JIAHAI BAI
FANTAO MENG
CHUNCHENG WEI
YUNXIA ZHAO
HUIHUI TAN
JUNCHENG LIU
spellingShingle JIAHAI BAI
FANTAO MENG
CHUNCHENG WEI
YUNXIA ZHAO
HUIHUI TAN
JUNCHENG LIU
SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
Ceramics-Silikáty
MgO
Solution combustion synthesis
Nanocrystalline
Specific surface area
author_facet JIAHAI BAI
FANTAO MENG
CHUNCHENG WEI
YUNXIA ZHAO
HUIHUI TAN
JUNCHENG LIU
author_sort JIAHAI BAI
title SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
title_short SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
title_full SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
title_fullStr SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
title_full_unstemmed SOLUTION COMBUSTION SYNTHESIS AND CHARACTERISTICS OF NANOSCALE MgO POWDERS
title_sort solution combustion synthesis and characteristics of nanoscale mgo powders
publisher University of Chemistry and Technology, Prague
series Ceramics-Silikáty
issn 0862-5468
1804-5847
publishDate 2011-03-01
description Nanoscale MgO powders were fabricated via a microwave-induced solution combustion process using Mg(NO3)2 and starch as starting materials. Effects of the relative fuel-to-oxidant ratios (φe = 1.1, 1.0, 0.9 and 0.8, respectively) on characteristics of MgO nanoparticles were also investigated. The XRD analysis discloses that MgO nanocrystalline are successfully synthesized and the crystalline size of MgO increases remarkably with increasing of φe from 0.8 to 1.1. TEM images reveal that nanoporous agglomerates of MgO nanocrystalline are formed in the powders. Experimental results show that the average particles’ size of the powders decreases significantly as φe increases from 0.8 to 1.1. However, the powders from the precursors with φe equal to 1.0 exhibit larger specific surface area as compared the other powders.
topic MgO
Solution combustion synthesis
Nanocrystalline
Specific surface area
url http://www.ceramics-silikaty.cz/2011/pdf/2011_01_20.pdf
work_keys_str_mv AT jiahaibai solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
AT fantaomeng solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
AT chunchengwei solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
AT yunxiazhao solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
AT huihuitan solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
AT junchengliu solutioncombustionsynthesisandcharacteristicsofnanoscalemgopowders
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