Nanocoral architecture of TiO 2 by hydrothermal process: Synthesis and characterization

Applied Surface Science

Volumn 257, Issue 23, 2011, Pages 9737-9746

  Mali, Sawanta S ^a   Shinde, Pravin S ^a   Betty, C A ^b   Bhosale, Popatrao N ^b   Lee, Won J ^c   Patil, Pramod S ^a  

^a SHIVAJI UNIVERSITY   (India)

^b BHABHA ATOMIC RESEARCH CENTRE   (India)

^c Korea Electrotechnology Research Institute (KERI)   (South Korea)

Author keywords

Hydrothermal route; Photoelectrochemical performance

Indexed keywords

ARCHITECTURAL ACOUSTICS; CONDUCTIVE FILMS; DYE-SENSITIZED SOLAR CELLS; ELECTROCHEMISTRY; ELECTROLYTES; FIELD EMISSION MICROSCOPES; FOURIER TRANSFORM INFRARED SPECTROSCOPY; GLASS; HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY; HYDROTHERMAL SYNTHESIS; NANOCOMPOSITES; OXIDE FILMS; PHOTOLUMINESCENCE SPECTROSCOPY; SCANNING ELECTRON MICROSCOPY; SEMICONDUCTOR QUANTUM WELLS; SODIUM CHLORIDE; SODIUM HYDROXIDE; SOLAR CELLS; SUBSTRATES; TIN OXIDES; TITANIUM DIOXIDE; X RAY DIFFRACTION;

FIELD EMISSION SCANNING ELECTRON MICROSCOPY; FOURIER TRANSFORM IR SPECTROSCOPY; FOURIER-TRANSFORM RAMAN SPECTROSCOPY; HYDROTHERMAL ROUTES; PHOTOELECTROCHEMICAL PERFORMANCE; PHOTOELECTROCHEMICAL PROPERTIES; ROOM-TEMPERATURE PHOTOLUMINESCENCE; SYNTHESIS AND CHARACTERIZATIONS;

X RAY PHOTOELECTRON SPECTROSCOPY;

EID: 80051787316     PISSN: 01694332     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apsusc.2011.05.119     Document Type: Article

References (45)

1. V. Zwilling, M. Aucouturier, and E. Darque-Ceretti Electrochim. Acta 45 6 1999 921
2. A. Fujishima, and K. Honda Nature 238 1972 37
3. R. Wang, K. Hashimoto, A. Fujishima, M. Chikuni, E. Kojima, A. Kitamura, M. Shimohigoshi, and T. Watanabe Nature 388 1997 431
4. B. Oregan, and M.A. Gratzel Nature 353 1991 737
5. V. Subramanian, A. Karki, K.I. Gnanasekar, F.P. Eddy, and B. Rambabu J. Power Sources 159 2006 186
6. N. Wu, S. Wang, and I.A. Rusakova Science 285 1999 1375
7. H.G. Yang, C.H. Sun, S.Z. Qiao, J. Zou, G. Liu, S.C. Smith, H.M. Cheng, and G.Q. Lu Nature 453 2008 638
8. M. Lau, L. Dai, K. Bosnick, and S. Evoy Nanotechnology 20 2009 025602
9. S. Sreekantan, K.A. Saharudin, Z. Lockman, and T.W. Tzu Nanotechnology 21 2010 365603
10. J. Yu, and B. Wang Appl. Catal. B: Environ. 94 2010 295
11. J. Yu, G. Dai, and B. Cheng J. Phys. Chem. C 114 2010 19378
12. J. Yu, G. Dai, and B. Huang J. Phys. Chem. C 113 2009 16394
13. W. Ho, J.C. Yu, and J.G. Yu Langmuir 21 2006 3486
14. J.G. Yu, Y.R. Su, and B. Cheng Adv. Funct. Mater. 17 2007 1984
15. P.S. Shinde, P.S. Patil, P.N. Bhosale, A. Bruger, G. Nauer, M. Neumann-Spallart, and C.H. Bhosale Appl. Catal. B: Environ. 89 2009 288
16. S.K. Pradhan, P.J. Reucroft, F. Yang, and Dozier J. Cryst. Growth 256 2003 83
17. Z.R. Tian, J.A. Voigt, J. Lui, B. Mckenzie, and H. Xu J. Am. Chem. Soc. 125 2003 12384
18. M. Gratzel Inorg. Chem. 44 2005 6841
19. J.G. Yu, and X.X. Yu Environ. Sci. Technol. 42 2008 4902
20. M.A. Cameron, I.P. Gartland, J.A. Smith, S.F. Diaz, and S.M. George Langmuir 16 2000 7435
21. S. Haukka, E.L. Lakomaa, and A.J. Root Phys. Chem. 97 1993 5085
22. D. Yang, and L. Qi J. Mater. Adv. Mater. 14 21 2002 1543
23. E.M. Patterson, C.E. Shelden, and B.H. Stockton Appl. Opt. 16 1977 729
24. S.M. Jo, M.Y. Song, Y.R. Ahn, C.R. Park, D.Y. Kim, and J. Macro Sci. Part A 42 11 2005 1529
25. H. Xu, F. Jia, Z. Ai, and L. Zhang Cryst. Growth Des. 7 2007 7
26. Y.V. Kolen'ko, K.A. Kovnir, A.I. Gavrilov, A.V. Garshev, J. Frantti, O.I. Lebedev, B.R. Churagulov, O.G. Van Tendeloo, and M. Yoshimura J. Phys. Chem. B 110 2006 4030
27. S.Z. Chu, K. Wada, S. Inoue, S.I. Hishita, and K. Kurashima J. Phys. Chem. B 107 2003 10180
28. J. Zuo, C.G. Nie, X. Gu, Y.K. Lai, Y. Zong, L. Sun, and C.J. Lin Mater. Lett. 61 2007 2632
29. M. Barbic, J.J. Mock, D.R. Smith, and S. Schultz J. Appl. Phys. 91 2002 9341
30. D. Xu, Y. Xu, D. Chen, G. Guo, L. Gui, and Y. Tang Chem. Phys. Lett. 325 2000 340
31. T. Kasuga, M. Hiramatsu, A. Hoson, T. Sekino, and K. Niihara Adv. Mater. 11 15 1995 1307
32. Y.J. Kim, M.H. Lee, H.J. Kim, G. Lim, Y.S. Choi, N.G. Park, K. Kim, and W.I. Lee Adv. Mater. 21 2009 1
33. P.S. Shinde, S.B. Sadale, P.S. Patil, P.N. Bhosale, A. Bruger, M. Neumann-Spallart, and C.H. Bhosale Sol. Energy Mater. Sol. Cells 92 2008 283
34. H.P. Deshmukh, P.S. Shinde, and P.S. Patil Mater. Sci. Eng. B 130 2006 220
35. Y. Lida, M. Furukawa, T. Aoki, and T. Sakai Appl. Spectrosc. 52 1986 73
36. D. Bersani, P.P. Lottici, and X.Z. Ding Appl. Phys. Lett. 72 1998 73
37. J.S. Chen, Y.L. Tan, C.M. Li, Y.L. Cheah, D. Luan, S. Madhavi, F.Y.C. Boey, L.A. Archer, and X.W. Lou J. Am. Chem. Soc. 32 2010 6124
38. K.S. Song, and R.T. Williams Self-Trapped Excitons Solid State Science vol. 105 1993 Springer-Verlag Heidelberg
39. L.Q. Jing, Z.L. Xu, J. Shang, X.J. Sun, W.M. Cai, and H.G. Fu Sol. Energy Mater. Sol. Cells 79 2003 133
40. X. Zhang, H. Yang, and A. Tang J. Phys. Chem. B 112 2008 16271
41. K. Nagaveni, M.S. Hegde, N. Ravishankar, G.N. Subbanna, and G. Madras Langmuir 20 2004 2900
42. V. Subramanian, E. Wolf, and P.V. Kamat J. Phys. Chem. B 105 2001 11439
43. V. Subramanian, E. Wolf, and P.V. Kamat J. Am. Chem. Soc. 126 2004 4943
44. A. Zaban, M. Greenshtein, and J. Bisquert Chem. Phys. Chem. 4 2003 859
45. A.M. Eppler, I.M. Ballard, and J. Nelson Phys. E 14 2002 197