Three-dimensional structure of fast ion conducting 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses from high-energy X-ray diffraction and reverse Monte Carlo simulations

D. Le Messurier; V. Petkov; S. W. Martin; Youngsik Kim; Y. Ren

doi:10.1016/j.jnoncrysol.2009.01.006

Three-dimensional structure of fast ion conducting 0.5Li₂S + 0.5[(1 - x)GeS₂ + xGeO₂] glasses from high-energy X-ray diffraction and reverse Monte Carlo simulations

D. Le Messurier, V. Petkov, S. W. Martin, Youngsik Kim, Y. Ren

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Abstract

A high-energy X-ray diffraction study has been carried out on a series of 0.5Li₂S + 0.5[(1 - x)GeS₂ + xGeO₂] glasses with x = 0.0, 0.1, 0.2, 0.4, 0.6 and 0.8. Structure factors were measured to wave vectors as high as 30 Å^-1 resulting in atomic pair distribution functions with high real space resolution. The three dimensional atomic-scale structure of the glasses was modeled by reverse Monte Carlo simulations based on the diffraction data. Results from the simulations show that at the atomic-scale 0.5Li₂S + 0.5[(1 - x)GeS₂ + xGeO₂] glasses may be viewed as an assembly of independent chains of (Li^{+ -}S)₂GeS_2/2 and (Li^{+ -}O)₂GeO_2/2 tetrahedra as repeat units, where the Li ions occupy the open space between the chains. The new structure data may help understand the reasons for the sharp maximum in the Li⁺ ion conductivity at x ∼ 0.2.

Original language	English
Pages (from-to)	430-437
Number of pages	8
Journal	Journal of Non-Crystalline Solids
Volume	355
Issue number	7
DOIs	https://doi.org/10.1016/j.jnoncrysol.2009.01.006
State	Published - Mar 15 2009

Keywords

Mixed-anion effect
Monte Carlo simulations
Structure
Sychrotron radiation
X-ray diffraction

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10.1016/j.jnoncrysol.2009.01.006

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title = "Three-dimensional structure of fast ion conducting 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses from high-energy X-ray diffraction and reverse Monte Carlo simulations",

abstract = "A high-energy X-ray diffraction study has been carried out on a series of 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses with x = 0.0, 0.1, 0.2, 0.4, 0.6 and 0.8. Structure factors were measured to wave vectors as high as 30 {\AA}-1 resulting in atomic pair distribution functions with high real space resolution. The three dimensional atomic-scale structure of the glasses was modeled by reverse Monte Carlo simulations based on the diffraction data. Results from the simulations show that at the atomic-scale 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses may be viewed as an assembly of independent chains of (Li+ -S)2GeS2/2 and (Li+ -O)2GeO2/2 tetrahedra as repeat units, where the Li ions occupy the open space between the chains. The new structure data may help understand the reasons for the sharp maximum in the Li+ ion conductivity at x ∼ 0.2.",

keywords = "Mixed-anion effect, Monte Carlo simulations, Structure, Sychrotron radiation, X-ray diffraction",

author = "Messurier, {D. Le} and V. Petkov and Martin, {S. W.} and Youngsik Kim and Y. Ren",

note = "Funding Information: Work on the project was supported by NSF DMR Grant No. 0710564. The APS is supported by DoE Grant W-31-109-ENG-38. Thanks are due to Aleksandar Matic from Chalmers University for his useful comments on the manuscript.",

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T1 - Three-dimensional structure of fast ion conducting 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses from high-energy X-ray diffraction and reverse Monte Carlo simulations

AU - Messurier, D. Le

AU - Petkov, V.

AU - Martin, S. W.

AU - Kim, Youngsik

AU - Ren, Y.

N1 - Funding Information: Work on the project was supported by NSF DMR Grant No. 0710564. The APS is supported by DoE Grant W-31-109-ENG-38. Thanks are due to Aleksandar Matic from Chalmers University for his useful comments on the manuscript.

PY - 2009/3/15

Y1 - 2009/3/15

N2 - A high-energy X-ray diffraction study has been carried out on a series of 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses with x = 0.0, 0.1, 0.2, 0.4, 0.6 and 0.8. Structure factors were measured to wave vectors as high as 30 Å-1 resulting in atomic pair distribution functions with high real space resolution. The three dimensional atomic-scale structure of the glasses was modeled by reverse Monte Carlo simulations based on the diffraction data. Results from the simulations show that at the atomic-scale 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses may be viewed as an assembly of independent chains of (Li+ -S)2GeS2/2 and (Li+ -O)2GeO2/2 tetrahedra as repeat units, where the Li ions occupy the open space between the chains. The new structure data may help understand the reasons for the sharp maximum in the Li+ ion conductivity at x ∼ 0.2.

AB - A high-energy X-ray diffraction study has been carried out on a series of 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses with x = 0.0, 0.1, 0.2, 0.4, 0.6 and 0.8. Structure factors were measured to wave vectors as high as 30 Å-1 resulting in atomic pair distribution functions with high real space resolution. The three dimensional atomic-scale structure of the glasses was modeled by reverse Monte Carlo simulations based on the diffraction data. Results from the simulations show that at the atomic-scale 0.5Li2S + 0.5[(1 - x)GeS2 + xGeO2] glasses may be viewed as an assembly of independent chains of (Li+ -S)2GeS2/2 and (Li+ -O)2GeO2/2 tetrahedra as repeat units, where the Li ions occupy the open space between the chains. The new structure data may help understand the reasons for the sharp maximum in the Li+ ion conductivity at x ∼ 0.2.

KW - Mixed-anion effect

KW - Monte Carlo simulations

KW - Structure

KW - Sychrotron radiation

KW - X-ray diffraction

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ER -

Three-dimensional structure of fast ion conducting 0.5Li₂S + 0.5[(1 - x)GeS₂ + xGeO₂] glasses from high-energy X-ray diffraction and reverse Monte Carlo simulations

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