First-principles investigation of technetium carbides and nitrides

Yongcheng Liang; Chun Li; Wanlin Guo; Wenqing Zhang

doi:10.1103/PhysRevB.79.024111

First-principles investigation of technetium carbides and nitrides

Yongcheng Liang
, Chun Li
, Wanlin Guo
, Wenqing Zhang

School of Aerospace Engineering

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

62 Scopus citations

Abstract

Phase stabilities and mechanical properties of ideal stoichiometric technetium monocarbide (TcC) and technetium mononitride (TcN) in the tungsten carbide (WC), nickel arsenide (NiAs), rocksalt (NaCl), and zinc-blende (ZnS) structures, respectively, have been studied systematically by first-principles calculations. It is found that both TcC and TcN in two hexagonal phases (WC and NiAs) are not only elastically stable but also hard and ultrastiff materials. Remarkably, for the two hexagonal TcC phases, both bulk moduli and linear incompressibilities along the c axis exceed that of c BN and even rival with diamond. Their hardness can also match the known hard materials such as WC. The combination of good metallicity, strong stiffness, and high hardness suggests that the materials may find applications as hard conductors and cutting tools.

Original language	English
Article number	024111
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	79
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevB.79.024111
State	Published - 5 Jan 2009

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10.1103/PhysRevB.79.024111

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abstract = "Phase stabilities and mechanical properties of ideal stoichiometric technetium monocarbide (TcC) and technetium mononitride (TcN) in the tungsten carbide (WC), nickel arsenide (NiAs), rocksalt (NaCl), and zinc-blende (ZnS) structures, respectively, have been studied systematically by first-principles calculations. It is found that both TcC and TcN in two hexagonal phases (WC and NiAs) are not only elastically stable but also hard and ultrastiff materials. Remarkably, for the two hexagonal TcC phases, both bulk moduli and linear incompressibilities along the c axis exceed that of c BN and even rival with diamond. Their hardness can also match the known hard materials such as WC. The combination of good metallicity, strong stiffness, and high hardness suggests that the materials may find applications as hard conductors and cutting tools.",

author = "Yongcheng Liang and Chun Li and Wanlin Guo and Wenqing Zhang",

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T1 - First-principles investigation of technetium carbides and nitrides

AU - Liang, Yongcheng

AU - Li, Chun

AU - Guo, Wanlin

AU - Zhang, Wenqing

PY - 2009/1/5

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N2 - Phase stabilities and mechanical properties of ideal stoichiometric technetium monocarbide (TcC) and technetium mononitride (TcN) in the tungsten carbide (WC), nickel arsenide (NiAs), rocksalt (NaCl), and zinc-blende (ZnS) structures, respectively, have been studied systematically by first-principles calculations. It is found that both TcC and TcN in two hexagonal phases (WC and NiAs) are not only elastically stable but also hard and ultrastiff materials. Remarkably, for the two hexagonal TcC phases, both bulk moduli and linear incompressibilities along the c axis exceed that of c BN and even rival with diamond. Their hardness can also match the known hard materials such as WC. The combination of good metallicity, strong stiffness, and high hardness suggests that the materials may find applications as hard conductors and cutting tools.

AB - Phase stabilities and mechanical properties of ideal stoichiometric technetium monocarbide (TcC) and technetium mononitride (TcN) in the tungsten carbide (WC), nickel arsenide (NiAs), rocksalt (NaCl), and zinc-blende (ZnS) structures, respectively, have been studied systematically by first-principles calculations. It is found that both TcC and TcN in two hexagonal phases (WC and NiAs) are not only elastically stable but also hard and ultrastiff materials. Remarkably, for the two hexagonal TcC phases, both bulk moduli and linear incompressibilities along the c axis exceed that of c BN and even rival with diamond. Their hardness can also match the known hard materials such as WC. The combination of good metallicity, strong stiffness, and high hardness suggests that the materials may find applications as hard conductors and cutting tools.

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First-principles investigation of technetium carbides and nitrides

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