Monolayer polar metals with large piezoelectricity derived from MoSi2N4
Literature Information
Publication Date
2023-09-06
DOI
10.1039/D3MH00743J
Impact Factor
13.266
Authors
Yan Yin, Min Yi, Wanlin Guo
View Original
Abstract
The advancement of two-dimensional polar metals tends to be limited by the incompatibility between electric polarity and metallicity as well as dimension reduction. Here, we report polar and metallic Janus monolayers of the MoSi2N4 family by breaking the out-of-plane structural symmetry through Z (P/As) substitution of N. Despite the semiconducting nature of MoSi2X4 (X = N/P/As), four Janus MoSi2NxZ4−x monolayers are found to be polar metals owing to the weak coupling between the conducting electrons and electric polarity. The metallicity is originated from the Z substitution induced delocalization of occupied electrons in Mo-d orbitals. The out-of-plane electric polarizations around 1.5–15.7 pC m−1 are determined by the asymmetric out-of-plane charge distribution due to the non-centrosymmetric Janus structure. The corresponding out-of-plane piezoelectricity is further revealed as high as 18.7–73.3 pC m−1 and 0.05–0.25 pm V−1 for the piezoelectric strain and stress coefficients, respectively. The results demonstrate polar metallicity and high out-of-plane piezoelectricity in Janus MoSi2NxZ4−x monolayers and open new vistas for exploiting unusual coexisting properties in monolayers derived from the MoSi2N4 family.
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Source Journal
Materials Horizons
CiteScore:
18.9
Self-citation Rate:
3.3%
Articles per Year:
511
Materials Horizons is a leading journal for the publication of exceptionally high quality, innovative materials science.The journal places an emphasis on original research that demonstrates a new concept or a new way of thinking (a conceptual advance), rather than primarily reporting technological improvements. However, outstanding articles featuring truly breakthrough developments such as record performance of materials alone may also be published in the journal. For work to be published it must be of significant general interest to our community-spanning readership. All articles published in Materials Horizons from 2021 onwards will be indexed in MEDLINE©
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CAS Number:
25332-39-2
Molecular Formula:
C19H23Cl2N5O
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[2',6'-bis(propan-2-yloxy)-[1,1'-biphenyl]-3-yl]dicyclohexylphosphane
CAS Number:
787618-22-8
Molecular Formula:
C30H43O2P
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