[1]Yutong Lu, Fu Yang *Wang X Y*, et al. Tailored oxygen defect coupling composition engineering CoxMn2O4 spinel hollow nanofiber enables improved Bisphenol A catalytic degradation. Sep. Purif. Technol., 2022; 282:120051
[2] Gao S Y#, Wang X Y#, Yang F*, Kong Y*, et al. Engineering carbon-defects on ultrathin g-C3N4 allows one-pot output and dramatically boosts photoredox catalytic activity. Appl. Catal.-B Environ., 2021; 295:120272
[3]Wang X Y, Rui Z B, Ji H B*, et al. Highly dispersed and active Pd nanoparticles over titania support through engineering oxygen vacancies and their anchoring effect. AIChE J., 2020; 66:e16288
[4]Wang X Y, Rui Z B*, Ji H B*. DFT study of formaldehyde oxidation on silver cluster by active oxygen and hydroxyl groups: mechanism comparison and synergic. Catal. Today, 2020; 347:124-133
[5]Huo Ying#, Wang X Y#, Rui Z B*, et al. Identification of the nearby hydroxyls’ in promoting HCHO oxidation over a Pt catalyst. Ind. Eng. Chem. Res., 2018; 57:8183-8189
[6]Wang X Y, Rui Z B*, Ji H B*, et al. Synergetic effect of oxygen vacancy and Pd site on the interaction between Pd/anatase TiO2 (101) and formaldehyde: a density functional theory study. Catal. Today, 2017; 297:151-158
[7] Wang X Y, Wang S, Yin X Q, et al. Activated carbon preparation from cassava residue using a two-step KOH activation: preparation, micropore structure and adsorption capacity. J. Biobased. Mater. Bio., 2014; 8:35-42.