41 |
A practical-oriented NiFe-based water-oxidation catalyst enabled by ambient redox and hydrolysis co-precipitation strategy Zhu WX, Zhang TS, Zhang Y, Yue ZH, Li YG, Wang R, Ji YW, Sun XP, Wang JL Applied Catalysis B: Environmental, 244, 844, 2019 |
42 |
Enhanced photocatalytic CO2 reduction to methane over WO(3)(.)0.33H(2)O via Mo doping Wang HP, Zhang L, Wang KF, Sun X, Wang WZ Applied Catalysis B: Environmental, 243, 771, 2019 |
43 |
Insight into a hexanuclear cobalt complex: Strategy to construct efficient catalysts for visible light-driven water oxidation Lin JQ, Meng XY, Zheng M, Ma BC, Ding Y Applied Catalysis B: Environmental, 241, 351, 2019 |
44 |
Turning the unwanted surface bismuth enrichment to favourable BiVO4/ BiOCl heterojunction for enhanced photoelectrochemical performance Liu C, Zhou JL, Su JZ, Guo LJ Applied Catalysis B: Environmental, 241, 506, 2019 |
45 |
2D Co-incorporated hydroxyapatite nanoarchitecture as a potential efficient oxygen evolution cocatalyst for boosting photoelectrochemical water splitting on Fe2O3 photoanode Chong RF, Du YQ, Chang ZX, Jia YS, Qiao Y, Liu SH, Liu Y, Zhou YM, Li DL Applied Catalysis B: Environmental, 250, 224, 2019 |
46 |
Switching on efficient photocatalytic water oxidation reactions over CaNbO2N by Mg modifications under visible light illumination Wang YW, Jin S, Sun XQ, Wei SH, Chen L, Xu XX Applied Catalysis B: Environmental, 245, 10, 2019 |
47 |
Electrochemical and photoelectrochemical water oxidation of solvothermally synthesized Zr-doped alpha-Fe2O3 nanostructures Rani BJ, Kumar MP, Ravi G, Ravichandran S, Guduru RK, Yuvakkumar R Applied Surface Science, 471, 733, 2019 |
48 |
Photocatalytic reduction of CO2 to methane over PtOx-loaded ultrathin Bi2WO6 nanosheets Wang QQ, Wang KF, Zhang L, Wang HP, Wang WZ Applied Surface Science, 470, 832, 2019 |
49 |
Integrating CoOx cocatalyst on hexagonal alpha-Fe2O3 for effective photocatalytic oxygen evolution Li L, She XJ, Yi JJ, Pan L, Xia KX, Wei W, Zhu XW, Chen ZG, Xu H, Li HM Applied Surface Science, 469, 933, 2019 |
50 |
pH-controlled surface engineering of nanostructured ZnO films generated via a sustainable low-temperature H2O oxidation process Pelicano CM, Yanagi H Applied Surface Science, 467, 932, 2019 |