SnS monolayer as gas sensors: Insights from a first-principles investigation

摘要

Using the first-principle calculations with density functional theory (DFT), we investigate systematically the adsorption of small gas molecules (CO, NH3, SO2 and NO2) on monolayer SnS. The energetics, charge transfer are obtained. We determine the styles of molecule doping, and discuss the nature of interaction mechanism between gas molecules and SnS sheet. According to the calculated results, the adsorption of the specified molecules except SO2 gas on monolayer SnS is a physisorption process with moderate adsorption energy and charge transfer, while SO2 is chemsisorption. CO, SO2 and NO2 act as charge acceptors for the monolayer while NH3 which is found to be charge donors. The results show that the sensing performance of SnS is superior to other layered materials such as graphene and phosphorene. The optical properties results exhibit that WFs could be effectively adjusted by selectively adsorbed different gas molecules. These results suggest that monolayer SnS is a promising candidate for gas sensing applications.