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Nguồn tham khảo
| Tài liệu tham khảo | Loại | Chi tiết | ||
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| 58. Hyun Woo Kang, Sung Nam Lim, Seung Bin Park. “Effect of tri-doping on H 2 evolution under visible light irradiation on SrTiO 3 :Ni/Ta/La prepared by spray pyrolysis from polymeric precursor”. International Journal of Hydrogen Energy, Volume 37, Issue 14, July (2012)10539-10548 | Sách, tạp chí |
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| 59. Chengduo Wang, Hai Qiu, Tadanobu Inoue, Qiwen Yao. “Band gap engineering of SrTiO 3 for water splitting under visible light irradiation”. International Journal of Hydrogen Energy, Volume 39, Issue 24, 13 August (2014) 12507- 12514 | Sách, tạp chí |
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| 1. Kanhere, P. and Z. Chen, A review on visible light active perovskite-based photocatalysts. Molecules, 2014. 19(12): p. 19995-20022 | Khác | |||
| 2. Maeda, K., Photocatalytic water splitting using semiconductor particles: history and recent developments. Journal of Photochemistry and Photobiology C: Photochemistry Reviews, 2011. 12(4): p. 237-268 | Khác | |||
| 3. Qu, Y. and X. Duan, Progress, challenge and perspective of heterogeneous photocatalysts. Chemical Society Reviews, 2013. 42(7): p. 2568-2580 | Khác | |||
| 4. Osterloh, F.E., Inorganic nanostructures for photoelectrochemical and photocatalytic water splitting. Chemical Society Reviews, 2013. 42(6): p.2294-2320 | Khác | |||
| 5. Tan, Y.N., C.L. Wong, and A.R. Mohamed, An Overview on the Photocatalytic Activity of Nano-Doped-TiO 2 in the Degradation of Organic Pollutants. ISRN Materials Science, 2011. 2011 | Khác | |||
| 6. Song, S., et al., Photocatalytic degradation of CI Direct Red 23 in aqueous solutions under UV irradiation using SrTiO 3 /CeO 2 composite as the catalyst.Journal of hazardous materials, 2008. 152(3): p. 1301-1308 | Khác | |||
| 7. Lv, Y., et al., The characterization of Sr-doped nanocrystal grain microspheres and photodegradation of KN-R dye. Catalysis Communications, 2008. 9(5): p.557-562 | Khác | |||
| 8. Liu, Y., et al., Synthesis and high photocatalytic hydrogen production of SrTiO 3 nanoparticles from water splitting under UV irradiation. Journal of Power Sources, 2008. 183(2): p. 701-707 | Khác | |||
| 9. Townsend, T.K., N.D. Browning, and F.E. Osterloh, Overall photocatalytic water splitting with NiO x –SrTiO 3 – A revised mechanism. Energy &Environmental Science, 2012. 5(11): p. 9543-9550 | Khác | |||
| 10. Xian, T., et al., Photocatalytic properties of SrTiO 3 nanoparticles prepared by a polyacrylamide gel route. Materials Letters, 2011. 65(21): p. 3254-3257 | Khác | |||
| 11. Klaytae, T., P. Panthong, and S. Thountom, Preparation of nanocrystalline SrTiO 3 powder by sol–gel combustion method. Ceramics International, 2013.39: p. S405-S408 | Khác | |||
| 12. Chen, H.-C., et al., Theoretical investigation of the metal-doped SrTiO 3 photocatalysts for water splitting. The Journal of Physical Chemistry C, 2012.116(14): p. 7897-7903 | Khác | |||
| 13. Zheng, J.-Q., et al., Microwave-assisted rapid synthesis and photocatalytic activity of mesoporous Nd-doped SrTiO 3 nanospheres and nanoplates.Materials Letters, 2013. 100: p. 62-65 | Khác | |||
| 14. Jia, A., et al., Synthesis and characterization of highly-active nickel and lanthanum co-doped SrTiO 3 . Solid State Sciences, 2010. 12(7): p. 1140-1145 | Khác | |||
| 15. Wang, J.S., et al., Visible-Light Induced Photocatalytic Activity of Vanadium and Nitrogen Co-Doped SrTiO 3 . Solid State Phenomena, 2009. 147: p. 851- 855 | Khác | |||
| 16. Maeda, K. and K. Domen, New non-oxide photocatalysts designed for overall water splitting under visible light. The Journal of Physical Chemistry C, 2007.111(22): p. 7851-7861 | Khác | |||
| 17. Shi, J. and L. Guo, ABO 3 -based photocatalysts for water splitting. Progress in Natural Science: Materials International, 2012. 22(6): p. 592-615 | Khác | |||
| 18. Konta, R., et al., Photocatalytic activities of noble metal ion doped SrTiO 3under visible light irradiation. The Journal of Physical Chemistry B, 2004.108(26): p. 8992-8995 | Khác |
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