Structure and composition study of carbon-doped titanium oxide film combined with first principles

详细信息    查看全文

• 作者：Wei Mai (1)
  Feng Wen (1)
  Dong Xie (2)
  Yongxiang Leng (2)
  Zhonglin Mu (3)
  
• 关键词：C/Ti ; O films ; carbon ; doped ; magnetron sputtering ; first principles
• 刊名：Journal of Advanced Ceramics
• 出版年：2014
• 出版时间：March 2014
• 年：2014
• 卷：3
• 期：1
• 页码：49-55
• 全文大小：799 KB
• 参考文献：1. Linsebigler AL, Lu G, Yates JT. Photocatalysis on TiO₂ surfaces: Principles, mechanisms, and selected results. / Chem Rev 1995, 95: 735鈥?58. CrossRef
  2. Azevedo EB, Neto FRA, Dezotti M. TiO₂-photocatalyzed degradation of phenol in saline media: Lumped kinetics, intermediates, and acute toxicity. / Appl Catal B: Environ 2004, 54: 165鈥?73. CrossRef
  3. Baran W, Makowski A, Wardas W. The effect of UV radiation absorption of cationic and anionic dye solutions on their photocatalytic degradation in the presence TiO₂. / Dyes Pigments 2008, 76: 226鈥?30. CrossRef
  4. Hashimoto K, Irie H, Fujishima A. TiO₂ photocatalysis: A historical overview and future prospects. / Jpn J Appl Phys 2005, 44: 8269鈥?285. CrossRef
  5. Hung W-C, Fu S-H, Tseng J-J, / et al. Study on photocatalytic degradation of gaseous dichloromethane using pure and iron ion-doped TiO₂ prepared by the sol-gel method. / Chemosphere 2007, 66: 2142鈥?151. CrossRef
  6. Li M, Zhang J, Guo D, / et al. Band gap engineering of compensated (N, H) and (C, 2H) codoped anatase TiO₂: A first-principles calculation. / Chem Phys Lett 2012, 539-540: 175鈥?79. CrossRef
  7. Fujii H, Inata K, Ohtaki M, / et al. Synthesis of TiO₂/CdS nanocomposite via TiO₂ coating on CdS nanoparticles by compartmentalized hydrolysis of Ti alkoxide. / J Mater Sci 2001, 36: 527鈥?32. CrossRef
  8. Otaka H, Kira M, Yano K, / et al. Multi-colored dye-sensitized solar cells. / J Photoch Photobio A 2004, 164: 67鈥?3. CrossRef
  9. In S, Orlov A, Berg R, / et al. Effective visible light-activated B-doped and B, N-codoped TiO₂ photocatalysts. / J Am Chem Soc 2007, 129: 13790鈥?3791. CrossRef
  10. Lee J-Y, Park J, Cho J-H. Electronic properties of N- and C-doped TiO₂. / Appl Phys Lett 2005, 87: 011904. CrossRef
  11. Yu Y, Wu H-H, Zhu B-L, / et al. Preparation, characterization and photocatalytic activities of F-doped TiO₂ nanotubes. / Catal Lett 2008, 121: 165鈥?71. CrossRef
  12. Yang K, Dai Y, Huang B. Understanding photocatalytic activity of S- and P-doped TiO₂ under visible light from first-principles. / J Phys Chem C 2007, 111: 18985鈥?8994. CrossRef
  13. Wang X, Meng S, Zhang X, / et al. Multi-type carbon doping of TiO₂ photocatalyst. / Chem Phys Lett 2007, 444: 292鈥?96. CrossRef
  14. Yang X, Cao C, Erickson L, / et al. Synthesis of visible-light-active TiO₂-based photocatalysts by carbon and nitrogen doping. / J Catal 2008, 260: 128鈥?33. CrossRef
  15. Ohtani B, Ogawa Y, Nishimoto S. Photocatalytic activity of amorphous-anatase mixture of titanium(IV) oxide particles suspended in aqueous solutions. / J Phys Chem B 1997, 101: 3746鈥?752. CrossRef
  16. Randorn C, Wongnawa S, Boonsin P. Bleaching of methylene blue by hydrated titanium dioxide. / ScienceAsia 2004, 30: 149鈥?56. CrossRef
  17. Zhang Z, Maggard PA. Investigation of photocatalytically-active hydrated forms of amorphous titania, TiO_{2路 / n} H₂O. / J Photoch Photobio A 2007, 186: 8鈥?3. CrossRef
  18. Li J, Liu S, He Y, / et al. Adsorption and degradation of the cationic dyes over Co doped amorphous mesoporous titania-silica catalyst under UV and visible light irradiation. / Microporous Mesoporous Mater 2008, 115: 416鈥?25. CrossRef
  19. Kanna M, Wongnawa S, Buddee S, / et al. Amorphous titanium dioxide: A recyclable dye remover for water treatment. / J Sol-Gel Sci Technol 2010, 53: 162鈥?70. CrossRef
  20. Wang H, Zong Z, Yan Y, / et al. First-principles study of ferromagnetism in N doped TiO₂ and TiO. / J Magn Magn Mater 2012, 324: 2858鈥?860. CrossRef
  21. Zhang Y, Ma X, Chen P, / et al. Effect of the substrate temperature on the crystallization of TiO₂ films prepared by DC reactive magnetron sputtering. / J Cryst Growth 2007, 300: 551鈥?54. CrossRef
  22. Martin N, Santo AME, Sanjin茅s R, / et al. Energy distribution of ions bombarding TiO₂ thin films during sputter deposition. / Surf Coat Technol 2001, 138: 77鈥?3. CrossRef
  23. Dang BHQ, Rahman M, MacElroy D, / et al. Evaluation of microwave plasma oxidation treatments for the fabrication of photoactive un-doped and carbon-doped TiO₂ coatings. / Surf Coat Technol 2012, 206: 4113鈥?118. CrossRef
  24. Cong Y, Li X, Qin Y, / et al. Carbon-doped TiO₂ coating on multiwalled carbon nanotubes with higher visible light photocatalytic activity. / Appl Catal B: Environ 2011, 107: 128鈥?34. CrossRef
  25. Gu D, Lu Y, Yang B, / et al. Facile preparation of micro-mesoporous carbon-doped TiO₂ photocatalysts with anatase crystalline walls under template-free condition. / Chem Commun 2008: 2453鈥?455.
  26. Yang J, Bai H, Jiang Q, / et al. Visible-light photocatalysis in nitrogen-carbon-doped TiO₂ films obtained by heating TiO₂ gel-film in an ionized N₂ gas. / Thin Solid Films 2008, 516: 1736鈥?742. CrossRef
  27. Fu Y, Du H, Zhang S, / et al. XPS characterization of surface and interfacial structure of sputtered TiNi films on Si substrate. / Mat Sci Eng A 2005, 403: 25鈥?1. CrossRef
  28. Yang J, Dai J, Li J. Synthesis, characterization and degradation of Bisphenol A using Pr, N co-doped TiO₂ with highly visible light activity. / Appl Surf Sci 2011, 257: 8965鈥?973. CrossRef
  29. Suriye K, Praserthdam P, Jongsomjit B. Control of Ti³⁺ surface defect on TiO₂ nanocrystal using various calcination atmospheres as the first step for surface defect creation and its application in photocatalysis. / Appl Surf Sci 2007, 253: 3849鈥?855. CrossRef
  30. Hamdy MS, Amrollahi R, Mul G. Surface Ti³⁺ containing (blue) titania: A unique photocatalyst with high activity and selectivity in visible light-stimulated selective oxidation. / ACS Catal 2012, 2: 2641鈥?647. CrossRef
  31. Kubokawa Y, Anpo M, Yun C. Olefin photooxidation and oxygen anion radicals on oxide surfaces. / Stud Surf Sci Catal 1981, 7: 1170鈥?184. CrossRef
  32. Anpo M, Chiba K, Tomonari M, / et al. Photocatalysis on native and platinum-loaded TiO₂ and ZnO catalysts. Origin of different reactivities on wet and dry metal oxides. / B Chem Soc Jpn 1991, 64: 543鈥?51. CrossRef
  33. Gao H, Ding C, Dai D. Density functional characterization of C-doped anatase TiO₂ with different oxidation state. / J Mol Struc-THEOCHEM 2010, 944: 156鈥?62. CrossRef
  34. Li F, Zhao Y, Hao Y, / et al. N-doped P25 TiO₂-amorphous Al₂O₃ composites: One-step solution combustion preparation and enhanced visible-light photocatalytic activity. / J Hazard Mater 2012, 239-240: 118鈥?27. CrossRef
  
• 作者单位：Wei Mai (1)
  Feng Wen (1)
  Dong Xie (2)
  Yongxiang Leng (2)
  Zhonglin Mu (3)
  
  1. Key Lab of Advanced Materials of Tropical Island Resources of Ministry of Education, School of Materials and Chemical Engineering, Hainan University, Haikou, 570228, P.R.China
  2. Key Lab of Advanced Technologies of Materials, Ministry of Education, Chengdu, 610031, P.R.China
  3. Hainan Medical University, Haikou, 571199, P.R.China
  
• ISSN：2227-8508

文摘

Carbon-doped titanium oxide (C/Ti-O) films were prepared on Si(100) wafer, stainless steel (type 304) and glass by reactive magnetron sputtering (RMS) using CO2 gas as carbon and oxygen source under room temperature (RT). X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS) were used to analyze structure and composition of the as-prepared C/Ti-O film. It could be observed from XRD that the as-prepared C/Ti-O film contained TiO crystal phase structure. Ti2p XPS spectrum of the as-prepared C/Ti-O film showed that the valences of titanium were made up of Ti2+, Ti3+ and Ti4+. C1s XPS spectrum revealed that carbon was doped into titanium oxide based on the existence of the typical Ti-C bond. The optical absorption curve by ultraviolet-visible (UV-Vis) spectrophotometer showed that the C/Ti-O film appeared the remarkable red shift of absorption edge, which contributed to C substitution in O sites in amorphous TiO2. Photocatalysis test using methyl orange (MO) as indicator confirmed that the as-prepared C/Ti-O film had photocatalytic activity. Combined with the results of the tests and first-principles calculations, a potential photocatalysis mechanism was proposed.