Metallization and Electrical Transport Behaviors of GaSb under High-Pressure

Guozhao Zhang; Baojia Wu; Jia Wang; Haiwa Zhang; Hao Liu; Junkai Zhang; Cailong Liu; Guangrui Gu; Lianhua Tian; Yanzhang Ma; Chunxiao Gao

doi:10.1038/s41598-017-02592-5

Scientific Reports (Jun 2017)

Metallization and Electrical Transport Behaviors of GaSb under High-Pressure

Guozhao Zhang,
Baojia Wu,
Jia Wang,
Haiwa Zhang,
Hao Liu,
Junkai Zhang,
Cailong Liu,
Guangrui Gu,
Lianhua Tian,
Yanzhang Ma,
Chunxiao Gao

Affiliations

Guozhao Zhang: Department of Physics, College of Science, Yanbian University
Baojia Wu: Department of Physics, College of Science, Yanbian University
Jia Wang: State Key Lab for Superhard Materials, Institute of Atomic and Molecular Physics and Department of Materials Science, Jilin University
Haiwa Zhang: State Key Lab for Superhard Materials, Institute of Atomic and Molecular Physics and Department of Materials Science, Jilin University
Hao Liu: State Key Lab for Superhard Materials, Institute of Atomic and Molecular Physics and Department of Materials Science, Jilin University
Junkai Zhang: Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education, Jilin Normal University
Cailong Liu: State Key Lab for Superhard Materials, Institute of Atomic and Molecular Physics and Department of Materials Science, Jilin University
Guangrui Gu: Department of Physics, College of Science, Yanbian University
Lianhua Tian: Department of Physics, College of Science, Yanbian University
Yanzhang Ma: Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education, Jilin Normal University
Chunxiao Gao: State Key Lab for Superhard Materials, Institute of Atomic and Molecular Physics and Department of Materials Science, Jilin University

DOI: https://doi.org/10.1038/s41598-017-02592-5
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract The high-pressure metallization and electrical transport behaviors of GaSb were systematically investigated using in situ temperature-dependent electrical resistivity measurements, Hall effect measurements, transmission electron microscopy analysis, and first-principles calculations. The temperature-dependent resistivity measurements revealed pressure-induced metallization of GaSb at approximately 7.0 GPa, which corresponds to a structural phase transition from F-43m to Imma. In addition, the activation energies for the conductivity and Hall effect measurements indicated that GaSb undergoes a carrier-type inversion (p-type to n-type) at approximately 4.5 GPa before metallization. The first-principles calculations also revealed that GaSb undergoes a phase transition from F-43m to Imma at 7.0 GPa and explained the carrier-type inversion at approximately 4.5 GPa. Finally, transmission electron microscopy analysis revealed the effect of the interface on the electrical transport behavior of a small-resistance GaSb sample and explained the discontinuous change of resistivity after metallization. Under high pressure, GaSb undergoes grain refinement, the number of interfaces increases, and carrier transport becomes more difficult, increasing the electrical resistivity.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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