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Two-dimensional transition metal disulfides such as MoS 2 and WS 2 exhibit multiple phases. Altering their phase makes it possible to change their chemical and physical properties significantly. Although several phase-induced modification mechanisms have been reported, their effects on the gas-sensing performance of these substrates remain unknown. Here, the effects of phase selection on the gas-sensing characteristics of 1T' and 2H monolayer MoS 2 and WS 2 were explored using a density functional theory-based first-principles approach. The theoretical computations took into account the binding energy, band structure, theoretical recovery time, density of states, electron difference density, and total electron density. The results showed that there is a significant change in the density of states near the Fermi level as well as greater charge transfer between the gas in question and the substrate when the gas is adsorbed onto 1T' MoS 2 and WS 2 . Thus, phase selection is important for improving the gas-sensing performance of monolayer MoS 2 and WS 2 . This study provides theoretical evidence for increasing the sensing performance of polymorph films of these materials.

Effects of Phase Selection on Gas-Sensing Performance of MoS2 and WS2 Substrates

Effects of Phase Selection on Gas-Sensing Performance of MoS₂ and WS₂ Substrates