In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies

In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies

Recent interest in optimizing composition and synthesis conditions of functional crystals, and the further exploration of new possible candidates for tunable solid-state lasers, has led to significant research on compounds in this family MIMIII(MVIO4)2 (MI = alkali metal, MIII = Al, In, Sc, Fe, Bi,...

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Main Authors: Min Wang, Jinglin You, Alexander Sobol, Liming Lu, Jian Wang, Yingfang Xie
Format: Article
Language:English
Published: MDPI AG 2017-03-01
Series:Materials
Subjects:
double molybdate KAl(MoO4)2
structure transformation
Al coordination environment
in-situ Raman spectroscopy
first principles calculation
27Al MAS NMR
Online Access:http://www.mdpi.com/1996-1944/10/3/310
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spelling doaj-0ff6eec1c6104d13a34b257dfe051cb52020-11-24T23:59:40ZengMDPI AGMaterials1996-19442017-03-0110331010.3390/ma10030310ma10030310In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR SpectroscopiesMin Wang0Jinglin You1Alexander Sobol2Liming Lu3Jian Wang4Yingfang Xie5State Key Laboratory of Advanced Special Steel & Shanghai Key Laboratory of Advanced Ferrometallurgy & School of Materials Science and Engineering, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel & Shanghai Key Laboratory of Advanced Ferrometallurgy & School of Materials Science and Engineering, Shanghai University, Shanghai 200072, ChinaProkhorov General Physics Institute, Russian Academy of Sciences, Ulitsa, Vavilova 38, Moscow 119991, RussiaCSIRO Mineral Resources, Technology Court, Pullenvale, Queensland 4069, AustraliaState Key Laboratory of Advanced Special Steel & Shanghai Key Laboratory of Advanced Ferrometallurgy & School of Materials Science and Engineering, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel & Shanghai Key Laboratory of Advanced Ferrometallurgy & School of Materials Science and Engineering, Shanghai University, Shanghai 200072, ChinaRecent interest in optimizing composition and synthesis conditions of functional crystals, and the further exploration of new possible candidates for tunable solid-state lasers, has led to significant research on compounds in this family MIMIII(MVIO4)2 (MI = alkali metal, MIII = Al, In, Sc, Fe, Bi, lanthanide; MVI = Mo, W). The vibrational modes, structure transformation, and Al coordination of crystalline, glassy, and molten states of KAl(MoO4)2 have been investigated by in-situ high temperature Raman scattering and 27Al magic angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy, together with first principles density functional simulation of room temperature Raman spectrum. The results showed that, under the present fast quenching conditions, Al is present predominantly in [AlO6] octahedra in both KAl(MoO4)2 glass and melt, with the tetrahedrally coordinated Al being minor at approximately 2.7%. The effect of K+, from ordered arrangement in the crystal to random distribution in the melt, on the local chemical environment of Al, was also revealed. The distribution and quantitative analysis of different Al coordination subspecies are final discussed and found to be dependent on the thermal history of the glass samples.http://www.mdpi.com/1996-1944/10/3/310double molybdate KAl(MoO4)2structure transformationAl coordination environmentin-situ Raman spectroscopyfirst principles calculation27Al MAS NMR
collection DOAJ
language English
format Article
sources DOAJ
author Min Wang
Jinglin You
Alexander Sobol
Liming Lu
Jian Wang
Yingfang Xie
spellingShingle Min Wang
Jinglin You
Alexander Sobol
Liming Lu
Jian Wang
Yingfang Xie
In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
Materials
double molybdate KAl(MoO4)2
structure transformation
Al coordination environment
in-situ Raman spectroscopy
first principles calculation
27Al MAS NMR
author_facet Min Wang
Jinglin You
Alexander Sobol
Liming Lu
Jian Wang
Yingfang Xie
author_sort Min Wang
title In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
title_short In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
title_full In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
title_fullStr In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
title_full_unstemmed In-Situ Studies of Structure Transformation and Al Coordination of KAl(MoO4)2 during Heating by High Temperature Raman and 27Al NMR Spectroscopies
title_sort in-situ studies of structure transformation and al coordination of kal(moo4)2 during heating by high temperature raman and 27al nmr spectroscopies
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2017-03-01
description Recent interest in optimizing composition and synthesis conditions of functional crystals, and the further exploration of new possible candidates for tunable solid-state lasers, has led to significant research on compounds in this family MIMIII(MVIO4)2 (MI = alkali metal, MIII = Al, In, Sc, Fe, Bi, lanthanide; MVI = Mo, W). The vibrational modes, structure transformation, and Al coordination of crystalline, glassy, and molten states of KAl(MoO4)2 have been investigated by in-situ high temperature Raman scattering and 27Al magic angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy, together with first principles density functional simulation of room temperature Raman spectrum. The results showed that, under the present fast quenching conditions, Al is present predominantly in [AlO6] octahedra in both KAl(MoO4)2 glass and melt, with the tetrahedrally coordinated Al being minor at approximately 2.7%. The effect of K+, from ordered arrangement in the crystal to random distribution in the melt, on the local chemical environment of Al, was also revealed. The distribution and quantitative analysis of different Al coordination subspecies are final discussed and found to be dependent on the thermal history of the glass samples.
topic double molybdate KAl(MoO4)2
structure transformation
Al coordination environment
in-situ Raman spectroscopy
first principles calculation
27Al MAS NMR
url http://www.mdpi.com/1996-1944/10/3/310
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