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Issue
Korean Journal of Chemical Engineering,
Vol.30, No.11, 2026-2029, 2013
Effects of dye etching on the morphology and performance of ZnO nanorod dye-sensitized solar cells
Yang J, Lin Y, Meng Y
Dye-sensitized solar cells based on electrodeposited ZnO nanorod arrays were fabricated and tested. Fieldemission scanning electron microscopy (FESEM) and X-ray powder diffraction(XRD) were used to identify the characters of ZnO nanorod arrays. The effects of dye etching on the morphology and performance of ZnO nanorod dye-sensitized solar cells were studied. It was found that the surfaces of ZnO nanorods were both etched by dye solutions, no matter N3 or N719. Compared with N3, N719 had a larger damage to the structure of ZnO nanorod photoanode, and the photoelectric conversion efficiency of cells decreased quickly with the sensitizing time increasing. In a certain range, the increasing length of ZnO nanorods can clearly improve the photoelectric conversion efficiency of cells.
Keywords: Dye Etching Zinc Oxide Nanorod; Morphology; Cell Performance; Dye-sensitized Solar Cells
[References]
  1. Gratzel M, J. Photochem. Photobiol. C., 4, 145, 2003
  2. Yella A, Lee HW, Tsao HN, Yi CY, Chandiran AK, Nazeeruddin MK, Diau EWG, Yeh CY, Zakeeruddin SM, Gratzel M, Science, 334(6056), 629, 2011
  3. Wu JH, Hao S, Lan Z, Lin JM, Huang ML, Huang YF, Li PJ, Yin S, Satot T, J. Am. Chem. Soc., 130(35), 11568, 2008
  4. Lan Z, Wu JH, Hao SC, Lin JM, Huang ML, Huang YF, Energy Environ. Sci., 2, 524, 2009
  5. Ya J, An L, Liu Z, Lei E, Zhao W, Zhao D, Liu C, Korean J. Chem. Eng., 29(6), 731, 2012
  6. Zhang QF, Dandeneau CS, Zhou XY, Cao GZ, Adv. Mater., 21(41), 4087, 2009
  7. Yoshida T, Zhang JB, Komatsu D, Sawatani S, Minoura H, Pauporte T, Lincot D, Oekermann T, Schlettwein D, Tada H, Wohrle D, Funabiki K, Matsui M, Miura H, Yanagi H, Adv. Funct. Mater., 19(1), 17, 2009
  8. Cheng HM, Hsieh WF, Energy Environ. Sci., 3, 442, 2010
  9. Xu F, Sun LT, Energy Environ. Sci., 4, 818, 2011
  10. Hahn YB, Korean J. Chem. Eng., 28(9), 1797, 2011
  11. Petersson A, Ratner M, Karlsson HO, J. Phys. Chem. B, 104(35), 8498, 2000
  12. Bauer C, Boschloo G, Mukhtar E, Hagfeldt A, J. Phys. Chem. B, 105(24), 5585, 2001
  13. Peter LM, J. Phys. Chem. Lett., 2, 1861, 2011
  14. Law M, Greene LE, Johnson JC, Saykally R, Yang PD, Nat. Mater., 4(6), 455, 2005
  15. Hosono E, Fujihara S, Honna I, Zhou HS, Adv. Mater., 17(17), 2091, 2005
  16. Mane RS, Lee WJ, Pathan HM, Han SH, J. Phys. Chem. B, 109(51), 24254, 2005
  17. Lai MH, Lee MW, Wang GJ, Tai MF, Int. J. Electrochem.Sci., 6, 2122, 2011
  18. Guo M, Diao P, Wang XD, Cai SM, J. Solid State Chem., 178, 3210, 2005
  19. Yan FP, Huang LH, Zheng JS, Huang J, Lin Z, Huang F, Wei MD, Langmuir, 26(10), 7153, 2010
  20. Lin Y, Yang JY, Zhou XY, Appl. Surf. Sci., 258(4), 1491, 2011
  21. Keis K, Bauer C, Boschloo G, Hagfeldt A, Westermark K, Rensmo H, Siegbahn H, J. Photochem. Photobiol. A,, 148, 57, 2002
  22. Wu JJ, Chen GR, Yang HH, Ku CH, Lai JY, Appl. Phys.Lett., 90, 213109, 2007
  23. Rahman MYA, Umar AA, Taslim R, Salleh MM, Electrochim.Acta., 88, 639, 2013
[Cited By]
  1. Kim S, Kim YC, Oh SG, Korean Chemical Engineering Research, 53(3), 350, 2015
  2. Lee SH, Yang SW, Lim DH, Yoo DJ, Lee CK, Kang GM, Kang Y, Korean Chemical Engineering Research, 53(5), 597, 2015
  3. Lee SJ, You MS, Im SH, Korean Journal of Chemical Engineering, 33(9), 2732, 2016
  4. Song JK, Kim DH, Korean Chemical Engineering Research, 58(1), 1, 2020
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