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1. The roles of density-tunable surface oxygen vacancy over bouquet-l.. [394]
2. 半导体表面光催化剂活性中心的构建及其光催化析氢性能研究 [320]
3. 半导体光催化剂制氢研究新进展 [289]
4. Z-Scheme Photocatalytic System Utilizing Separate Reaction Centers.. [261]
5. The enhancement of CdS photocatalytic activity for water splitting.. [229]
6. 纳米WO3 粉体的制备与光催化活性研究 [218]
7. CoOx改性TiO2光催化剂的制备、优化及其光催化分解水析氢性能研究 [210]
8. Enhancing photoactivity for hydrogen generation by electron tunnel.. [202]
9. The long-term photocatalytic stability of Co2+-modified P25-TiO2 p.. [200]
10. The Role of Cu(I) Species for Photocatalytic Hydrogen Generation O.. [190]
11. Pt/TiO2 光催化重整降解2-氯乙醇水溶液制氢 [188]
12. The Evidences of Morphology Dependent Electroactivity Toward CO Ox.. [182]
13. TiO2表面NiO光催化活性中心的构建及其光催化析氢性能研究 [181]
14. Inhibition of hydrogen and oxygen recombination using oxygen trans.. [181]
15. 几种低碳醇在Pt/ TiO2 上的光催化产氢速率的研究 [180]
16. The Doping Effect of Bi on TiO2 for Photocatalytic Hydrogen Genera.. [179]
17. Structural-Dependent Photoactivities of TiO2 Nanoribbon for Visibl.. [176]
18. CoO 改性TiO2光催化从水析氢光电化学行为研究 [166]
19. Interface Charge Transfer versus Surface Proton Reduction: Which I.. [153]
20. Water splitting over core-shell structural nanorod CdS@Cr2O3 catal.. [151]
21. Water splitting by CdS/Pt/WO3-CeOx photocatalysts with assisting o.. [142]
22. 无氧条件下Pt-TiO2光催化重整降解—乙醇胺水溶液制氢 [128]
23. Highly efficient hydrogen evolution over Co(OH)(2) nanoparticles m.. [128]
24. Construction of Mobius-strip-like graphene for highly efficient ch.. [123]
25. The roles of surface oxygen vacancy over Mg4Ta2O9-x photocatalyst .. [123]
26. NIR light driven catalytic hydrogen generation over semiconductor .. [116]
27. In-situ hydrothermal fabrication of Sr2FeTaO6/NaTaO3 heterojunctio.. [112]
28. Inhibition of hydrogen and oxygen reverse recombination reaction o.. [110]
29. Enhancing hydrogen generation via fabricating peroxide decompositi.. [103]
30. Enhancing water splitting activity by protecting hydrogen evolutio.. [103]
31. Co-P/graphene alloy catalysts doped with Cu and Ni for efficient p.. [92]
32. Inhibition of CdS photocorrosion by Al2O3 shell for highly stable .. [92]
33. The role of a metallic copper interlayer during visible photocatal.. [88]
34. Visible light driven water splitting over CaTiO3/Pr3+-Y2SiO5/RGO c.. [88]
35. Inhibition of the excited-state Rose Bengal (RB) nonradiative proc.. [84]
36. Nanoscale SrFe0.5Ta0.5O3 double perovskite photocatalyst: Low-temp.. [82]
37. Enhancing photoactivity for hydrogen generation by electron tunnel.. [76]
38. 980 nm NIR light driven overall water splitting over a combined Cd.. [68]
39. Pt/TiO2 光诱导催化重整乙醇制氢 [63]
40. TiO2 protection layer and well-matched interfaces enhance the stab.. [58]
41. Metal-free plasmonic boron phosphide/graphitic carbon nitride with.. [55]
42. Selective Bonding Effect of Heterologous Oxygen Vacancies in Z-Sch.. [53]
43. 干湿循环中水对13X分子筛机械强度劣化和晶格畸变 [22]

Downloads

1. Interface Charge Transfer versus Surface Proton Reduction: Which I.. [5]
2. Water splitting by CdS/Pt/WO3-CeOx photocatalysts with assisting o.. [5]
3. Water splitting over core-shell structural nanorod CdS@Cr2O3 catal.. [5]
4. The enhancement of CdS photocatalytic activity for water splitting.. [5]
5. The long-term photocatalytic stability of Co2+-modified P25-TiO2 p.. [3]
6. Enhancing photoactivity for hydrogen generation by electron tunnel.. [3]
7. Enhancing photoactivity for hydrogen generation by electron tunnel.. [3]
8. Visible light driven water splitting over CaTiO3/Pr3+-Y2SiO5/RGO c.. [3]
9. 半导体光催化剂制氢研究新进展 [2]
10. CoO 改性TiO2光催化从水析氢光电化学行为研究 [2]
11. Highly efficient hydrogen evolution over Co(OH)(2) nanoparticles m.. [2]
12. Inhibition of hydrogen and oxygen reverse recombination reaction o.. [2]
13. Construction of Mobius-strip-like graphene for highly efficient ch.. [2]
14. The roles of surface oxygen vacancy over Mg4Ta2O9-x photocatalyst .. [2]
15. 半导体表面光催化剂活性中心的构建及其光催化析氢性能研究 [1]
16. 几种低碳醇在Pt/ TiO2 上的光催化产氢速率的研究 [1]
17. Pt/TiO2 光诱导催化重整乙醇制氢 [1]
18. Pt/TiO2 光催化重整降解2-氯乙醇水溶液制氢 [1]
19. 纳米WO3 粉体的制备与光催化活性研究 [1]
20. 无氧条件下Pt-TiO2光催化重整降解—乙醇胺水溶液制氢 [1]
21. CoOx改性TiO2光催化剂的制备、优化及其光催化分解水析氢性能研究 [1]
22. The roles of density-tunable surface oxygen vacancy over bouquet-l.. [1]
23. The role of a metallic copper interlayer during visible photocatal.. [1]
24. Inhibition of CdS photocorrosion by Al2O3 shell for highly stable .. [1]