High-pressure behavior of NaInSi2O6 and the influence of Me3+ on the compressibility of NaMe3+Si2O6 silicates

Benedetta Periotto; F. Nestola; Tonci Balic Zunic; D. Pasqual; M. Alvaro; H. Ohashi

doi:10.1016/j.ssc.2011.10.025

High-pressure behavior of NaInSi₂O₆ and the influence of Me³⁺ on the compressibility of NaMe³⁺Si₂O₆ silicates

Benedetta Periotto, F. Nestola, Tonci Balic Zunic, D. Pasqual, M. Alvaro, H. Ohashi

Geology

5 Citations (Scopus)

Abstract

The equation of state of a single-crystal synthetic silicate NaInSi ₂O₆ was determined from the unit cell parameters measured by X-ray diffraction using a diamond-anvil cell at 12 different pressures up to 7.83(1) GPa in order to provide a definitive model capable of predicting the high-pressure behavior of NaMe^{3 +}Si₂O₆ silicate compounds. The PV data were fitted by a third-order BirchMurnaghan equation of state obtaining the following coefficients: ^V0=463.42(3) ³,^KT0=109.0(6)GPa, ^K′=3.3(2). Our results show similar results for NaMe^{3 +}Si₂O₆ compounds and confirm that for this mineral family, the empirical ^KT0×^V0=constant relationship proposed in previous investigations is valid for isostructural compounds only if they share the same valence electron character. In addition, we collected intensity data on the same compound at 16 different pressures up to 9.467 GPa using a diamond-anvil cell with diamond backing plates. The main structural compression mechanism is played by the tetrahedral chain kinking, which is related to the shortening of NaO3_long distances. Comparing our equation of state and high-pressure crystal structural results with previous data on NaMe^{3 +}Si ₂O₆ pyroxenes, we show that their compressibility increases much faster with the size of Me^{3 +} cation when this one is a 3d transition metal.

Original language	English
Journal	Solid State Communications
Volume	152
Issue number	2
Pages (from-to)	132-137
Number of pages	6
ISSN	0038-1098
DOIs	https://doi.org/10.1016/j.ssc.2011.10.025
Publication status	Published - 1 Jan 2012

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10.1016/j.ssc.2011.10.025

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@article{a98c20d7fb1f41fbad2d35374368a9ae,

title = "High-pressure behavior of NaInSi2O6 and the influence of Me3+ on the compressibility of NaMe3+Si2O6 silicates",

abstract = "The equation of state of a single-crystal synthetic silicate NaInSi 2O6 was determined from the unit cell parameters measured by X-ray diffraction using a diamond-anvil cell at 12 different pressures up to 7.83(1) GPa in order to provide a definitive model capable of predicting the high-pressure behavior of NaMe3 +Si2O6 silicate compounds. The PV data were fitted by a third-order BirchMurnaghan equation of state obtaining the following coefficients: V0=463.42(3) 3,KT0=109.0(6)GPa, K′=3.3(2). Our results show similar results for NaMe3 +Si2O6 compounds and confirm that for this mineral family, the empirical KT0×V0=constant relationship proposed in previous investigations is valid for isostructural compounds only if they share the same valence electron character. In addition, we collected intensity data on the same compound at 16 different pressures up to 9.467 GPa using a diamond-anvil cell with diamond backing plates. The main structural compression mechanism is played by the tetrahedral chain kinking, which is related to the shortening of NaO3long distances. Comparing our equation of state and high-pressure crystal structural results with previous data on NaMe3 +Si 2O6 pyroxenes, we show that their compressibility increases much faster with the size of Me3 + cation when this one is a 3d transition metal.",

author = "Benedetta Periotto and F. Nestola and {Balic Zunic}, Tonci and D. Pasqual and M. Alvaro and H. Ohashi",

year = "2012",

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doi = "10.1016/j.ssc.2011.10.025",

language = "English",

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journal = "Solid State Communications",

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T1 - High-pressure behavior of NaInSi2O6 and the influence of Me3+ on the compressibility of NaMe3+Si2O6 silicates

AU - Periotto, Benedetta

AU - Nestola, F.

AU - Balic Zunic, Tonci

AU - Pasqual, D.

AU - Alvaro, M.

AU - Ohashi, H.

PY - 2012/1/1

Y1 - 2012/1/1

N2 - The equation of state of a single-crystal synthetic silicate NaInSi 2O6 was determined from the unit cell parameters measured by X-ray diffraction using a diamond-anvil cell at 12 different pressures up to 7.83(1) GPa in order to provide a definitive model capable of predicting the high-pressure behavior of NaMe3 +Si2O6 silicate compounds. The PV data were fitted by a third-order BirchMurnaghan equation of state obtaining the following coefficients: V0=463.42(3) 3,KT0=109.0(6)GPa, K′=3.3(2). Our results show similar results for NaMe3 +Si2O6 compounds and confirm that for this mineral family, the empirical KT0×V0=constant relationship proposed in previous investigations is valid for isostructural compounds only if they share the same valence electron character. In addition, we collected intensity data on the same compound at 16 different pressures up to 9.467 GPa using a diamond-anvil cell with diamond backing plates. The main structural compression mechanism is played by the tetrahedral chain kinking, which is related to the shortening of NaO3long distances. Comparing our equation of state and high-pressure crystal structural results with previous data on NaMe3 +Si 2O6 pyroxenes, we show that their compressibility increases much faster with the size of Me3 + cation when this one is a 3d transition metal.

AB - The equation of state of a single-crystal synthetic silicate NaInSi 2O6 was determined from the unit cell parameters measured by X-ray diffraction using a diamond-anvil cell at 12 different pressures up to 7.83(1) GPa in order to provide a definitive model capable of predicting the high-pressure behavior of NaMe3 +Si2O6 silicate compounds. The PV data were fitted by a third-order BirchMurnaghan equation of state obtaining the following coefficients: V0=463.42(3) 3,KT0=109.0(6)GPa, K′=3.3(2). Our results show similar results for NaMe3 +Si2O6 compounds and confirm that for this mineral family, the empirical KT0×V0=constant relationship proposed in previous investigations is valid for isostructural compounds only if they share the same valence electron character. In addition, we collected intensity data on the same compound at 16 different pressures up to 9.467 GPa using a diamond-anvil cell with diamond backing plates. The main structural compression mechanism is played by the tetrahedral chain kinking, which is related to the shortening of NaO3long distances. Comparing our equation of state and high-pressure crystal structural results with previous data on NaMe3 +Si 2O6 pyroxenes, we show that their compressibility increases much faster with the size of Me3 + cation when this one is a 3d transition metal.

U2 - 10.1016/j.ssc.2011.10.025

DO - 10.1016/j.ssc.2011.10.025

M3 - Journal article

SN - 0038-1098

VL - 152

SP - 132

EP - 137

JO - Solid State Communications

JF - Solid State Communications

IS - 2

ER -

High-pressure behavior of NaInSi2O6 and the influence of Me3+ on the compressibility of NaMe3+Si2O6 silicates

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High-pressure behavior of NaInSi₂O₆ and the influence of Me³⁺ on the compressibility of NaMe³⁺Si₂O₆ silicates