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Incommensurate transition-metal dichalcogenides via mechanochemical reshuffling of binary precursors.

Ihor Z HlovaPrashant SinghSerhiy Z MalynychRoman V GamernykOleksandr DolotkoVitalij K PecharskyDuane D JohnsonRaymundo ArroyaveArjun K PathakViktor P Balema
Published in: Nanoscale advances (2021)
A new family of heterostructured transition-metal dichalcogenides (TMDCs) with incommensurate ("misfit") spatial arrangements of well-defined layers was prepared from structurally dissimilar single-phase 2H-MoS 2 and 1T-HfS 2 materials. The experimentally observed heterostructuring is energetically favorable over the formation of homogeneous multi-principle element dichalcogenides observed in related dichalcogenide systems of Mo, W, and Ta. The resulting three-dimensional (3D) heterostructures show semiconducting behavior with an indirect band gap around 1 eV, agreeing with values predicted from density functional theory. Results of this joint experimental and theoretical study open new avenues for generating unexplored metal-dichalcogenide heteroassemblies with incommensurate structures and tunable physical properties.
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