| Tài liệu tham khảo |
Loại |
Chi tiết |
| 1. Čejka, J., Metal–Organic Frameworks. Applications from Catalysis to Gas Storage. Edited by David Farrusseng. Angew. Chem. Int. Ed., 2012. 51(20):p. 4782–4783 |
Sách, tạp chí |
| Tiêu đề: |
Metal–Organic Frameworks. Applications from Catalysis to Gas Storage. Edited by David Farrusseng |
|
| 17. White, E.H., et al., Chemically Produced Excited States. Energy Transfer, Photochemical Reactions, and Light Emission. J. Am. Chem. Soc., 1973.95(21): p. 7050-7058 |
Sách, tạp chí |
| Tiêu đề: |
Chemically Produced Excited States. Energy Transfer, Photochemical Reactions, and Light Emission |
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| 18. Linsebigler, A.L., et al., Photocatalysis on TiO 2 Surfaces: Principles, Mechanisms, and Selected Results. Chem. Rev., 1995. 95(3): p. 735-758 |
Sách, tạp chí |
| Tiêu đề: |
Photocatalysis on TiO"2" Surfaces: Principles, Mechanisms, and Selected Results |
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| 19. Mills, A., and Lee, S.-K., A Web-based Overview of Semiconductor Photochemistry-based Current Commercial Applications. Journal of Photochemistry and Photobiology A: Chemistry, 2002. 152(1): p. 233-247 |
Sách, tạp chí |
| Tiêu đề: |
A Web-based Overview of Semiconductor Photochemistry-based Current Commercial Applications |
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| 20. Hoffmann, M.R., et al., Environmental Applications of Semiconductor Photocatalysis Chem. Rev., 1995. 95: p. 69-96 |
Sách, tạp chí |
| Tiêu đề: |
Environmental Applications of Semiconductor Photocatalysis |
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| 21. Van Gerven, T., et al., A Review of Intensification of Photocatalytic Processes. Chemical Engineering and Processing: Process Intensification, 2007. 46(9): p. 781-789 |
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| Tiêu đề: |
A Review of Intensification of Photocatalytic Processes |
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| 22. Ochiai, T., and Fujishima, A., Photoelectrochemical Properties of TiO 2 Photocatalyst and Its Applications for Environmental Purification.Journal of Photochemistry and Photobiology C: Photochemistry Reviews, 2012. 13: p. 247-262 |
Sách, tạp chí |
| Tiêu đề: |
Photoelectrochemical Properties of TiO"2"Photocatalyst and Its Applications for Environmental Purification |
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| 23. Fox, M.A., and Dulay, M. T., Heterogeneous Photocatalysis. Chem. Rev., 1993. 93(1): p. 341-357 |
Sách, tạp chí |
| Tiêu đề: |
Heterogeneous Photocatalysis |
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| 25. Whitten, D.G., Photoinduced Electron Transfer Reactions of Metal Complexes in Solution. Acc. Chem. Res., 1980. 13(3): p. 83-90 |
Sách, tạp chí |
| Tiêu đề: |
Photoinduced Electron Transfer Reactions of Metal Complexes in Solution |
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| 26. Li, J., and Zeng, H. C., Preparation of Monodisperse Au/TiO 2 Nanocatalysts via Self–Assembly. Chem. Mater., 2006. 18(18): p. 4270-4277 |
Sách, tạp chí |
| Tiêu đề: |
Preparation of Monodisperse Au/TiO"2" Nanocatalysts via Self–Assembly |
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| 27. Cheniae, G., and Martin, I., Photoreaction of Manganese Catalyst in Photosynthetic Oxygen Evolution. Plant Physio., 1969. 44(3): p. 351-360 |
Sách, tạp chí |
| Tiêu đề: |
Photoreaction of Manganese Catalyst in Photosynthetic Oxygen Evolution |
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| 28. Kasahara, A., et al., Photoreactions on LaTiO 2 N under Visible Light Irradiation. The Journal of Physical Chemistry A, 2002. 106(29): p. 6750- 6753 |
Sách, tạp chí |
| Tiêu đề: |
Photoreactions on LaTiO"2"N under Visible Light Irradiation |
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| 29. Bordiga, S., et al., Electronic and Vibrational Properties of a MOF–5 Metal–Organic Framework: ZnO Quantum Dot Behaviour. Chem. Comm., 2004.2004(20): p. 2300–2301 |
Sách, tạp chí |
| Tiêu đề: |
Electronic and Vibrational Properties of a MOF–5 Metal–"Organic Framework: ZnO Quantum Dot Behaviour |
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| 30. Gascon, J., et al., Isoreticular MOFs as Efficient Photocatalysts with Tunable Band Gap: An Operando FT-IR Study of the Photoinduced Oxidation of Propylene. ChemSusChem, 2008. 1(12): p. 981-983 |
Sách, tạp chí |
| Tiêu đề: |
Isoreticular MOFs as Efficient Photocatalysts with Tunable Band Gap: An Operando FT-IR Study of the Photoinduced Oxidation of Propylene |
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| 31. Civalleri, B., et al., Ab-initio Prediction of Materials Properties with CRYSTAL: MOF-5 as a Case Study. CrystEngComm, 2006. 8: p. 364-371 |
Sách, tạp chí |
| Tiêu đề: |
Ab-initio Prediction of Materials Properties with CRYSTAL: MOF-5 as a Case Study |
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| 32. Yaghi, O.M., et al., Reticular Synthesis and the Design of New Materials. Nature, 2003. 423: p. 705-714 |
Sách, tạp chí |
| Tiêu đề: |
Reticular Synthesis and the Design of New Materials |
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| 33. Wang, C., et al., Doping Metal-Organic Frameworks for Water Oxidation, Carbon Dioxide Reduction, and Organic Photocatalysis. J. Am. Chem. Soc., 2011. 133: p. 13445-13454 |
Sách, tạp chí |
| Tiêu đề: |
Doping Metal-Organic Frameworks for Water Oxidation, Carbon Dioxide Reduction, and Organic Photocatalysis |
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| 34. Wu, C.-D., et al., Porous Metal−Organic Frameworks for Heterogeneous Biomimetic Catalysis. Acc. Chem. Res., 2014. 47: p. 1199-1207 |
Sách, tạp chí |
| Tiêu đề: |
Porous Metal−Organic Frameworks for Heterogeneous Biomimetic Catalysis |
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| 35. Hassan, J., et al., Aryl−Aryl Bond Formation One Century after the Discovery of the Ullman Reaction. Chem. Rev., 2002. 102: p. 1359-1469 |
Sách, tạp chí |
| Tiêu đề: |
Aryl−Aryl Bond Formation One Century after the Discovery of the Ullman Reaction |
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| 36. Sperotto, E., et al., The Mechanism of the Modified Ullmann Reaction. Dalton Trans., 2010. 39: p. 10338-10351 |
Sách, tạp chí |
| Tiêu đề: |
The Mechanism of the Modified Ullmann Reaction |
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