期刊
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
卷 14, 期 10, 页码 2692-2701出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpclett.3c00058
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In this study, a class of ternary carbon-based 2D materials with pentagon and Janus motifs were systematically studied. Six of the studied Janus pentagonal CmXnY6-m-n monolayers were dynamically and thermally stable, and two of them exhibited auxeticity. Particularly, the material Janus penta-Si2C2N2 showed an omnidirectional negative Poisson ratio (NPR) and high piezoelectric coefficient, making it a potential candidate for future nanoelectronics and electromechanical devices.
Two-dimensional (2D) materials composed of pentagon and Janus motifs usually exhibit unique mechanical and electronic properties. In this work, a class of ternary carbon-based 2D materials, CmXnY6-m-n (m = 2, 3; n = 1, 2; X, Y = B, N, Al, Si, P), are systematically studied by first-principles calculations. Six of 21 Janus penta-CmXnY6-m-n monolayers are dynamically and thermally stable. The Janus penta-C2B2Al2 and Janus penta-Si2C2N2 exhibit auxeticity. More strikingly, Janus penta-Si2C2N2 exhibits an omnidirectional negative Poisson ratio (NPR) with values ranging from -0.13 to -0.15; in other words, it is auxetic under stretch in any direction. The calculations of piezoelectricity reveal that the out-of-plane piezoelectric strain coefficient (d32) of Janus panta-C2B2Al2 is up to 0.63 pm/V and increases to 1 pm/V after a strain engineering. These omnidirectional NPR, giant piezoelectric coefficients endow the Janus pentagonal ternary carbon-based monolayers as potential candidates in the future nanoelectronics, especially in the electromechanical devices.
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