Polyamorphism in YB-based metallic glass induced by pressure

Liangliang Li; Qiang Luo; Renfeng Li; Haiyan Zhao; Karena W. Chapman; Peter J. Chupas; Luhong Wang; Haozhe Liu

doi:10.1038/srep46762

Polyamorphism in YB-based metallic glass induced by pressure

Liangliang Li
, Qiang Luo
, Renfeng Li
, Haiyan Zhao
, Karena W. Chapman
, Peter J. Chupas
, Luhong Wang
, Haozhe Liu

Chemistry

Stony Brook University

Harbin Institute of Technology
Center for High Pressure Science & Technology Advanced Research
Tongji University
University of Idaho
United States Department of Energy

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

The Yb_62.5Zn₁₅Mg_17.5Cu₅ metallic glass is investigated using synchrotron x-ray total scattering method up to 38.4 GPa. The polyamorphic transformation from low density to high density with a transition region between 14.1 and 25.2 GPa is observed, accompanying with a volume collapse reflected by a discontinuousness of isothermal bulk modulus. This collapse is caused by that distortional icosahedron short range order precedes to perfect icosahedron, which might link to Yb 4f electron delocalization upon compression, and match the result of in situ electrical resistance measurement under high pressure conditions. This discovery in Yb-based metallic glass, combined with the previous reports on other metallic glass systems, demonstrates that pressure induced polyamorphism is the general behavior for typical lanthanide based metallic glasses.

Original language	English
Article number	46762
Journal	Scientific Reports
Volume	7
DOIs	https://doi.org/10.1038/srep46762
State	Published - 2017

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title = "Polyamorphism in YB-based metallic glass induced by pressure",

abstract = "The Yb62.5Zn15Mg17.5Cu5 metallic glass is investigated using synchrotron x-ray total scattering method up to 38.4 GPa. The polyamorphic transformation from low density to high density with a transition region between 14.1 and 25.2 GPa is observed, accompanying with a volume collapse reflected by a discontinuousness of isothermal bulk modulus. This collapse is caused by that distortional icosahedron short range order precedes to perfect icosahedron, which might link to Yb 4f electron delocalization upon compression, and match the result of in situ electrical resistance measurement under high pressure conditions. This discovery in Yb-based metallic glass, combined with the previous reports on other metallic glass systems, demonstrates that pressure induced polyamorphism is the general behavior for typical lanthanide based metallic glasses.",

author = "Liangliang Li and Qiang Luo and Renfeng Li and Haiyan Zhao and Chapman, \{Karena W.\} and Chupas, \{Peter J.\} and Luhong Wang and Haozhe Liu",

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doi = "10.1038/srep46762",

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journal = "Scientific Reports",

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T1 - Polyamorphism in YB-based metallic glass induced by pressure

AU - Li, Liangliang

AU - Luo, Qiang

AU - Li, Renfeng

AU - Zhao, Haiyan

AU - Chapman, Karena W.

AU - Chupas, Peter J.

AU - Wang, Luhong

AU - Liu, Haozhe

PY - 2017

Y1 - 2017

N2 - The Yb62.5Zn15Mg17.5Cu5 metallic glass is investigated using synchrotron x-ray total scattering method up to 38.4 GPa. The polyamorphic transformation from low density to high density with a transition region between 14.1 and 25.2 GPa is observed, accompanying with a volume collapse reflected by a discontinuousness of isothermal bulk modulus. This collapse is caused by that distortional icosahedron short range order precedes to perfect icosahedron, which might link to Yb 4f electron delocalization upon compression, and match the result of in situ electrical resistance measurement under high pressure conditions. This discovery in Yb-based metallic glass, combined with the previous reports on other metallic glass systems, demonstrates that pressure induced polyamorphism is the general behavior for typical lanthanide based metallic glasses.

AB - The Yb62.5Zn15Mg17.5Cu5 metallic glass is investigated using synchrotron x-ray total scattering method up to 38.4 GPa. The polyamorphic transformation from low density to high density with a transition region between 14.1 and 25.2 GPa is observed, accompanying with a volume collapse reflected by a discontinuousness of isothermal bulk modulus. This collapse is caused by that distortional icosahedron short range order precedes to perfect icosahedron, which might link to Yb 4f electron delocalization upon compression, and match the result of in situ electrical resistance measurement under high pressure conditions. This discovery in Yb-based metallic glass, combined with the previous reports on other metallic glass systems, demonstrates that pressure induced polyamorphism is the general behavior for typical lanthanide based metallic glasses.

UR - https://www.scopus.com/pages/publications/85038869193

U2 - 10.1038/srep46762

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M3 - Article

C2 - 28440339

SN - 2045-2322

VL - 7

JO - Scientific Reports

JF - Scientific Reports

M1 - 46762

ER -

Polyamorphism in YB-based metallic glass induced by pressure

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