Abstract

The stable adsorption configuration, electronic structure and magnetic property of CO, NO, and NH3 adsorbed on pristine and noble metal (Ag, Au) atom decorated ZnO monolayer (ZnO-ML) are investigated using density functional theory (DFT). The results show that all three kind of gas molecules are physically absorbed on pristine ZnO-ML during the exothermic process. At the same time, the adsorption performance of the ZnO-ML is enhanced by doping noble metal (Ag, Au) atoms. Both Ag and Au atom doping can greatly enhance adsorption ability of the ZnO-ML to the CO and NO molecules, except for the NH3 molecules. For NO molecules, the adsorption energies of NO on the Ag, and Au atom decorated ZnO-ML are −0.92 eV and −1.30 eV, respectively, which are over 5 and 7 times larger than that of NO on the pristine ZnO-ML, respectively. Therefore, both the Ag, and Au atom decorated ZnO-ML are more sensitive for CO and NO molecules contrast to the ZnO-ML. These results provide insight into the adsorption properties of ZnO-ML, which could promote the further application of ZnO materials in the gas sensing field.

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