4.7 Article

Emerging group-11 monochalcogenide MX (M = Cu, Ag, Au; X = S, Se, Te) monolayers: Two-dimensional polarized metals and visible-light-driven photocatalysts

Journal

SCIENCE CHINA-MATERIALS
Volume 66, Issue 9, Pages 3601-3608

Publisher

SCIENCE PRESS
DOI: 10.1007/s40843-023-2502-6

Keywords

group-11 chalcogenide monolayers; electronic property; optical characteristics; photocatalytic water splitting; first-principles calculations

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This paper reports a novel class of group-11 chalcogenide MX (M = Cu, Ag, Au; X = S, Se, Te) monolayers based on first-principles calculations, which demonstrate significant application potential as polarized metals and visible-light-driven photo-catalysts.
Two-dimensional (2D) transition metal chalcogenides have garnered significant research interest owing to their novel properties and potential applications. In this paper, we report a novel class of group-11 chalcogenide MX (M = Cu, Ag, Au; X = S, Se, Te) monolayers based on first-principles calculations, which demonstrate significant application potential as polarized metals and visible-light-driven photo-catalysts. iota-CuS, iota-AgS iota-AgTe, eta-CuSe, and eta-CuTe were found to be metals, while beta-AgSe, alpha-AuS, alpha-AuSe, and alpha-AuTe were observed to be semiconductors with a bandgap of 1.46, 2.14, 1.77, and 1.37 eV respectively. Interestingly, the work functions of the bottom and top sides of iota-CuS, iota-AgS, and iota-AgTe differed owing to the out-of-plane inversion asymmetry of the iota phase. Moreover, these metallic MX monolayers were used to form graphene-based metal-metal heterostructures; accordingly, the work function of graphene could be modulated from 4.35 eV to the range of 3.87-5.04 eV. For semiconducting MX monolayers, alpha-phase and beta-phase monolayers just satisfied the band edge requirement for the H+/H-2 and H2O/O-2 reaction at pH 0/7, respectively. Further investigations on the alpha-AuSe/alpha-AuTe heterostructure demonstrated its great application potential as a Z-scheme photocatalyst in visible-light-driven overall water splitting with appropriate band alignment, enhanced optical absorbance and high solar-to-hydrogen energy conversion efficiency (20.47%). Benefitting from these excellent properties, 2D group-11 chalcogenide MX monolayers can be potentially used as polarized metals and visible-light-driven water splitting photocatalysts.

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