Please use this identifier to cite or link to this item: http://dspace.iitrpr.ac.in:8080/xmlui/handle/123456789/4040
Title: High-Pressure Structural Transformation Pathway and Electronic Properties of AgGaTe2: Ab Initio Evolutionary Structural Searching
Authors: Kotmool, K.
Tsuppayakorn-aek, P.
Luo, W.
Ahuja, R.
Bovornratanaraks, T.
Issue Date: 22-Sep-2022
Abstract: We have used systematic ab initio evolutionary structural searching to uncover the high-pressure transformation pathway of a promising thermoelectric material, AgGaTe2. The global structures of the ternary Ag–Ga–Te system have been predicted up to 100 GPa. The known chalcopyrite phase at ambient pressure is validated by the searching method. The B3-like structure with the space group (s.g.) of P4̅m2 exhibits a metastable one at a low-pressure range. The first structural phase transition is calculated at about 4 GPa, processing the I4̅2d phase to a B1-like phase (s.g. Pmma). Other predicted structures, Pmn21 and Pm phases, are potentially coexisting phases up to 30 GPa because of the slightly different enthalpy. This finding reasonably explains the ambiguous results in the previous experiments. The high-pressure phase beyond 30 GPa is proposed to be a short-range alloy of bcc-Te and B2-AgGa rather than a cation-disordered B2-like phase. The band gap of the I4̅2d phase is increased with increasing pressure, while the metastable P4̅m2 phase is a narrow band gap semiconductor. The electron–phonon coupling of the metallic phases of ternary IB-IIIA-VIA2 compounds is derived for the first time in AgGaTe2. They exhibit superconductors with a maximum Tc of 2.4 K in the Pmma phase at 6 GPa. The findings of this work not only provide a clear explanation of the high-pressure transformation pathway of AgGaTe2 but also suggest promising electronic properties guiding further applications, especially in a thermometric device, of this material under high pressure.
URI: http://localhost:8080/xmlui/handle/123456789/4040
Appears in Collections:Year-2022

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