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Formaldehyde Molecules Adsorption on Zn Doped Monolayer MoS2: A First-Principles Calculation

Huili Li, Ling Fu, Chaozheng He, Jinrong Huo, Houyong Yang, Tingyue Xie, Guozheng Zhao, Guohui Dong

2021Frontiers in Chemistry25 citationsDOIOpen Access PDF

Abstract

Based on the first principles of density functional theory, the adsorption behavior of H 2 CO on original monolayer MoS 2 and Zn doped monolayer MoS 2 was studied. The results show that the adsorption of H 2 CO on the original monolayer MoS 2 is very weak, and the electronic structure of the substrate changes little after adsorption. A new kind of surface single cluster catalyst was formed after Zn doped monolayer MoS 2 , where the ZnMo 3 small clusters made the surface have high selectivity. The adsorption behavior of H 2 CO on Zn doped monolayer MoS 2 can be divided into two situations. When the H-end of H 2 CO molecule in the adsorption structure is downward, the adsorption energy is only 0.11 and 0.15 eV and the electronic structure of adsorbed substrate changes smaller. When the O-end of H 2 CO molecule is downward, the interaction between H 2 CO and the doped MoS 2 is strong leading to the chemical adsorption with the adsorption energy of 0.80 and 0.98 eV. For the O-end-down structure, the adsorption obviously introduces new impurity states into the band gap or results in the redistribution of the original impurity states. All of these may lead to the change of the chemical properties of the doped MoS 2 monolayer, which can be used to detect the adsorbed H 2 CO molecules. The results show that the introduction of appropriate dopant may be a feasible method to improve the performance of MoS 2 gas sensor.

Topics & Concepts

MonolayerAdsorptionMoleculeDopingDopantSubstrate (aquarium)Density functional theoryImpurityChemical physicsChemistryMaterials scienceBand gapComputational chemistryInorganic chemistryPhysical chemistryNanotechnologyOrganic chemistryOptoelectronicsGeologyOceanography2D Materials and ApplicationsGas Sensing Nanomaterials and SensorsAdvanced Thermoelectric Materials and Devices
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