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    外部: 4411
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1. Sequential deposition method fabricating carbon-based fully-inorga.. [253]
2. An Investigation of Surface States Energy Distribution and Band Ed.. [239]
3. Suppressing the skeleton decomposition in Ti-doped NH4V4O10 for du.. [222]
4. Solvothermal Synthesis of Hierarchical TiO2 Microstructures with H.. [212]
5. Effect of electron-donor ancillary ligands on the heteroleptic rut.. [186]
6. Microwave-assisted synthesis and photocatalytic properties of flow.. [174]
7. Impacts of Oxygen Vacancies on Zinc Ion Intercalation in VO2 [172]
8. Enhancing the Photovoltaic Performance of Perovskite Solar Cells w.. [160]
9. Continuous electron transport pathways constructed in TiO2 sub-mic.. [157]
10. Temperature-assisted rapid nucleation: a facile method to optimize.. [145]
11. Synthesis of TiO2 microspheres building on the etherification and .. [144]
12. Superior Light-Harvesting Heteroleptic Ruthenium(II) Complexes wit.. [135]
13. Metal-Free Sensitizers Containing Hydantoin Acceptor as High Perfo.. [133]
14. One-Pot Synthesis of Mesoporous TiO2 Micropheres and Its Applicati.. [127]
15. Large-grained formamidinium-based films via a 2D-3D conversion mec.. [125]
16. Unravelling the structural-electronic impact of arylamine electron.. [118]
17. New insight into solvent engineering technology from evolution of .. [117]
18. 金属锗酸盐微纳米材料的研究进展 [110]
19. Fine Tuning of Nanocrystal and Pore Sizes of TiO2 Submicrospheres .. [108]
20. Surface states in TiO2 submicrosphere films and their effect on el.. [105]
21. A Bi-functional additive for linking PI2 and decreasing defects in.. [97]
22. Facile synthesis of TiO2 microspheres via solvothermal alcoholysis.. [95]
23. 一步法合成微纳结构Tio2及在染料敏化太阳电池中的应用 [94]
24. Engineering surface states and band edge of TiO2 microspheres by t.. [92]
25. 微波辅助水热法制备花状氧化铜 [91]
26. Synthesis of TiO2 microspheres building on the etherification and .. [89]
27. Vibronic coupling and band gap trends in CuGeO3 nanorods [86]
28. Mesoporous TiO2 Yolk-Shell Microspheres for Dye-sensitized Solar C.. [84]
29. Microwave-assisted hydrothermal synthesis of cube-like Ag-Ag2MoO4 .. [77]
30. TiO2 SUB-MICROSPHERES AS A BI-FUNCTIONAL SCATTERING LAYER FOR HIGH.. [76]
31. Modulated bonding interaction in propanediol electrolytes toward s.. [76]
32. Oxygen-deficient TiO2 Yolk-shell Spheres for Enhanced Lithium Stor.. [73]
33. Bi2MoO6 microstructures:controllable synthesis,growth mechanism,an.. [72]
34. Microwave-assisted hydrothermal synthesis, growth mechanism and ph.. [68]
35. Fast preparation of flower-like PbGeO3 microstructures at low-temp.. [68]
36. CoS2 nanosheets on carbon cloth for flexible all-solid-state super.. [67]
37. Charge and Bonding in CuGeO3 Nanorods [65]
38. Size-controlled synthesis and magnetic properties of copper german.. [63]
39. Fast preparation of flower-like Bi4Ge3O12 microstructures via a mi.. [62]
40. Effect of electron-donor ancillary ligands on the heteroleptic rut.. [60]
41. Bonding interaction regulation in hydrogel electrolyte enable dend.. [57]
42. Insight into Electron-Donating Ancillary Ligands in Ruthenium Terp.. [44]

下载量

1. An Investigation of Surface States Energy Distribution and Band Ed.. [167]
2. Effect of electron-donor ancillary ligands on the heteroleptic rut.. [121]
3. Continuous electron transport pathways constructed in TiO2 sub-mic.. [117]
4. Superior Light-Harvesting Heteroleptic Ruthenium(II) Complexes wit.. [91]
5. Temperature-assisted rapid nucleation: a facile method to optimize.. [85]
6. Solvothermal Synthesis of Hierarchical TiO2 Microstructures with H.. [79]
7. Synthesis of TiO2 microspheres building on the etherification and .. [74]
8. One-Pot Synthesis of Mesoporous TiO2 Micropheres and Its Applicati.. [72]
9. Unravelling the structural-electronic impact of arylamine electron.. [62]
10. Fine Tuning of Nanocrystal and Pore Sizes of TiO2 Submicrospheres .. [58]
11. Metal-Free Sensitizers Containing Hydantoin Acceptor as High Perfo.. [56]
12. Microwave-assisted synthesis and photocatalytic properties of flow.. [56]
13. Facile synthesis of TiO2 microspheres via solvothermal alcoholysis.. [53]
14. Impacts of Oxygen Vacancies on Zinc Ion Intercalation in VO2 [53]
15. 金属锗酸盐微纳米材料的研究进展 [52]
16. Synthesis of TiO2 microspheres building on the etherification and .. [50]
17. New insight into solvent engineering technology from evolution of .. [46]
18. Engineering surface states and band edge of TiO2 microspheres by t.. [45]
19. Surface states in TiO2 submicrosphere films and their effect on el.. [44]
20. 微波辅助水热法制备花状氧化铜 [41]
21. A Bi-functional additive for linking PI2 and decreasing defects in.. [41]
22. Large-grained formamidinium-based films via a 2D-3D conversion mec.. [41]
23. 一步法合成微纳结构Tio2及在染料敏化太阳电池中的应用 [40]
24. TiO2 SUB-MICROSPHERES AS A BI-FUNCTIONAL SCATTERING LAYER FOR HIGH.. [39]
25. Fast preparation of flower-like PbGeO3 microstructures at low-temp.. [39]
26. Mesoporous TiO2 Yolk-Shell Microspheres for Dye-sensitized Solar C.. [37]
27. Enhancing the Photovoltaic Performance of Perovskite Solar Cells w.. [36]
28. Microwave-assisted hydrothermal synthesis of cube-like Ag-Ag2MoO4 .. [35]
29. Fast preparation of flower-like Bi4Ge3O12 microstructures via a mi.. [29]
30. Size-controlled synthesis and magnetic properties of copper german.. [28]
31. Bi2MoO6 microstructures:controllable synthesis,growth mechanism,an.. [28]
32. Microwave-assisted hydrothermal synthesis, growth mechanism and ph.. [27]
33. Vibronic coupling and band gap trends in CuGeO3 nanorods [26]
34. Charge and Bonding in CuGeO3 Nanorods [23]
35. Effect of electron-donor ancillary ligands on the heteroleptic rut.. [17]