Pressure induced Ag2Te polymorphs in conjunction with topological non trivial to metal transition

J. Zhu; A. R. Oganov; W. X. Feng; Y. G. Yao; S. J. Zhang; X. H. Yu; J. L. Zhu; R. C. Yu; C. Q. Jin; X. Dai; Z. Fang; Y. S. Zhao

doi:10.1063/1.4960606

Pressure induced Ag₂Te polymorphs in conjunction with topological non trivial to metal transition

J. Zhu, A. R. Oganov, W. X. Feng, Y. G. Yao, S. J. Zhang^*, X. H. Yu, J. L. Zhu, R. C. Yu, C. Q. Jin, X. Dai, Z. Fang, Y. S. Zhao

^*Corresponding author for this work

School of Physics

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

6 Citations (Scopus)

Abstract

Silver telluride (Ag₂Te) is well known as superionic conductor and topological insulator with polymorphs. Pressure induced three phase transitions in Ag₂Te have been reported in previous. Here, we experimentally identified high pressure phase above 13 GPa of Ag₂Te by using high pressure synchrotron x ray diffraction method in combination with evolutionary crystal structure prediction, showing it crystallizes into a monoclinic structure of space group C2/m with lattice parameters a = 6.081Å, b = 5.744Å, c = 6.797 Å, β = 105.53°. The electronic properties measurements of Ag₂Te reveal that the topologically non-trivial semiconducting phase I and semimetallic phase II previously predicated by theory transformed into bulk metals for high pressure phases in consistent with the first principles calculations.

Original language	English
Article number	085003
Journal	AIP Advances
Volume	6
Issue number	8
DOIs	https://doi.org/10.1063/1.4960606
Publication status	Published - 1 Aug 2016

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title = "Pressure induced Ag2Te polymorphs in conjunction with topological non trivial to metal transition",

abstract = "Silver telluride (Ag2Te) is well known as superionic conductor and topological insulator with polymorphs. Pressure induced three phase transitions in Ag2Te have been reported in previous. Here, we experimentally identified high pressure phase above 13 GPa of Ag2Te by using high pressure synchrotron x ray diffraction method in combination with evolutionary crystal structure prediction, showing it crystallizes into a monoclinic structure of space group C2/m with lattice parameters a = 6.081{\AA}, b = 5.744{\AA}, c = 6.797 {\AA}, β = 105.53°. The electronic properties measurements of Ag2Te reveal that the topologically non-trivial semiconducting phase I and semimetallic phase II previously predicated by theory transformed into bulk metals for high pressure phases in consistent with the first principles calculations.",

author = "J. Zhu and Oganov, {A. R.} and Feng, {W. X.} and Yao, {Y. G.} and Zhang, {S. J.} and Yu, {X. H.} and Zhu, {J. L.} and Yu, {R. C.} and Jin, {C. Q.} and X. Dai and Z. Fang and Zhao, {Y. S.}",

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doi = "10.1063/1.4960606",

language = "English",

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T1 - Pressure induced Ag2Te polymorphs in conjunction with topological non trivial to metal transition

AU - Zhu, J.

AU - Oganov, A. R.

AU - Feng, W. X.

AU - Yao, Y. G.

AU - Zhang, S. J.

AU - Yu, X. H.

AU - Zhu, J. L.

AU - Yu, R. C.

AU - Jin, C. Q.

AU - Dai, X.

AU - Fang, Z.

AU - Zhao, Y. S.

PY - 2016/8/1

Y1 - 2016/8/1

N2 - Silver telluride (Ag2Te) is well known as superionic conductor and topological insulator with polymorphs. Pressure induced three phase transitions in Ag2Te have been reported in previous. Here, we experimentally identified high pressure phase above 13 GPa of Ag2Te by using high pressure synchrotron x ray diffraction method in combination with evolutionary crystal structure prediction, showing it crystallizes into a monoclinic structure of space group C2/m with lattice parameters a = 6.081Å, b = 5.744Å, c = 6.797 Å, β = 105.53°. The electronic properties measurements of Ag2Te reveal that the topologically non-trivial semiconducting phase I and semimetallic phase II previously predicated by theory transformed into bulk metals for high pressure phases in consistent with the first principles calculations.

AB - Silver telluride (Ag2Te) is well known as superionic conductor and topological insulator with polymorphs. Pressure induced three phase transitions in Ag2Te have been reported in previous. Here, we experimentally identified high pressure phase above 13 GPa of Ag2Te by using high pressure synchrotron x ray diffraction method in combination with evolutionary crystal structure prediction, showing it crystallizes into a monoclinic structure of space group C2/m with lattice parameters a = 6.081Å, b = 5.744Å, c = 6.797 Å, β = 105.53°. The electronic properties measurements of Ag2Te reveal that the topologically non-trivial semiconducting phase I and semimetallic phase II previously predicated by theory transformed into bulk metals for high pressure phases in consistent with the first principles calculations.

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U2 - 10.1063/1.4960606

DO - 10.1063/1.4960606

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VL - 6

JO - AIP Advances

JF - AIP Advances

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M1 - 085003

ER -

Pressure induced Ag₂Te polymorphs in conjunction with topological non trivial to metal transition

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