Advanced Search

Citation: LI Jing, SUN Ming-Xuan, ZHANG Xiao-Yan, CUI Xiao-Li. Counter Electrodes for Dye-Sensitized Solar Cells[J]. Acta Physico-Chimica Sinica, ;2011, 27(10): 2255-2268. doi: 10.3866/PKU.WHXB20110901 shu

Counter Electrodes for Dye-Sensitized Solar Cells

  • 1.

    Department of Materials Science, Fudan University, Shanghai 200433, P. R. China

  • Received Date: 5 April 2011
    Available Online: 1 July 2011

    Fund Project: 国家重点基础研究发展规划(973)(2010CB933703,2011CB933300) (973)(2010CB933703,2011CB933300)上海市科学技术委员会纳米专项(1052nm01800)资助项目 (1052nm01800)

  • Counter electrode is one of the important parts of dye-sensitized solar cells (DSSC). Improving the performance of a counter electrode is an effective approach to enhance the energy conversion efficiency and reduce the cost of DSSC. In this paper, recent progresses in the study of various counter electrodes for use in DSSC are reviewed. We present researches about different counter electrodes including metals such as platinum, ld and nickel, various nanostructured carbon materials, and conductive polymers. Platinum counter electrodes give the best performance but their high cost restricts the industrialization of DSSC. More attention is being paid to novel materials such as different nanostructured carbon materials, conductive polymers and their composite counter electrodes because of their low cost and high activity.
  • 加载中
    1. [1]

      (1) O'Regan, B.; Grätzel, M. Nature 1991, 353 (6346), 737.  

    2. [2]

      (2) Bach, U.; Lupo, D.; Comte, P.; Moser, J. E.;Weissortel, F.;Salbeck, J.; Spreitzer, H.; Grätzel, M. Nature 1998, 395 (6702),583.  

    3. [3]

      (3) Kong, F. T.; Dai, S. Y. Prog. Chem. 2006, 18 (11), 1409.[孔凡太, 戴松元. 化学进展, 2006, 18 (11), 1409.]

    4. [4]

      (4) Zhao, Y.; Sheng, X. L.; Zhai, J. Prog. Chem. 2006, 18 (11),1452. [赵勇, 盛显良, 翟锦. 化学进展, 2006, 18 (11),1452.]

    5. [5]

      (5) Sheng, X. L.; Zhao, Y.; Zhai, J.; Zhu, D. B.; Prog. Chem. 2007,19 (1), 59. [盛显良, 赵勇, 翟锦, 朱道本. 化学进展,2007, 19 (1), 59.]

    6. [6]

      (6) Zheng, Q.; Zhou, B. X.; Bai, J.; Cai,W. M.; Liao, J. S. Prog. Chem. 2009, 19 (1), 117. [郑青, 周保学, 白晶, 蔡伟民,廖俊生. 化学进展, 2009, 19 (1), 117.]

    7. [7]

      (7) Zheng, B.; Niu, H. J.; Bai, X. D. Prog. Chem. 2008, 20 (6),828. [郑冰, 牛海军, 白续铎. 化学进展, 2008, 20 (6), 828.]

    8. [8]

      (8) Jiang, H. J.; Deng, X. Y.; Huang,W. Prog. Chem. 2008, 20 (9),1361. [姜鸿基, 邓先宇, 黄维. 化学进展, 2008, 20 (9),1361.]

    9. [9]

      (9) Song, X. R.;Wang, X. S.; Zhang, B.W. Prog. Chem. 2008, 20 (10), 1524. [宋晓睿, 王雪松, 张宝文. 化学进展, 2008, 20 (10), 1524.]

    10. [10]

      (10) Guo, L.; Pan, X.; Dai, S. Y. Prog. Chem. 2008, 20 (10), 1595.[郭磊, 潘旭, 戴松元. 化学进展, 2008, 20 (10), 1595.]

    11. [11]

      (11) Li, G.; Hu, Z. Q.; Gao, Y.; Liu, J. X.; Liu, G. S. Mater. Rev.2007, 21 (12), 16. [李国, 胡志强, 高岩, 刘敬肖, 刘贵山.材料导报, 2007, 21 (12), 16.]

    12. [12]

      (12) Yin, Y. H.; Xu, Z. H.; Feng, L. S.; Yang, S. T.; Li, C. B. Mater. Rev. 2009, 23 (5), 109. [尹艳红, 许泽辉, 冯磊硕, 杨书廷,李承斌. 材料导报, 2009, 23 (5), 109.]

    13. [13]

      (13) Ashi, O.; Larisa, G.; Arie, Z. J. Phys. Chem. C. 2008, 112 (7),2779.  

    14. [14]

      (14) Ma, T. L.; Fang, X. M.; Akiyama, M.; Inoue, K.; Noma, H.;Abe, E. J. Electroanal. Chem. 2004, 574 (1), 77.

    15. [15]

      (15) Chen,J. M.; Ma,Y. T.;Wang,G. Q. Chinese Science Bulletin2005, 50 (1), 473. [陈今茂, 马玉涛, 王桂强. 科学通报, 2005,50 (1) , 473.]

    16. [16]

      (16) Lin, C. Y.; Lin, J. Y.; Lan, J. L. Electrochem. Solid-State Lett.2010, 13 (11), D77.

    17. [17]

      (17) Yan, S. L.; Moriyama, T.; Uchida, H.;Watanabe, M. Chem. Commun. 2000, No. 22, 2279.

    18. [18]

      (18) Lee, Y. L.; Chen, C. L.; Chong, L.W.; Chen, C. H.; Liu, Y. F.;Chi, C. F. Electrochem. Commun. 2010, 12 (11), 1662.  

    19. [19]

      (19) Lin, L. Y.; Nien, P. C.; Lee, C. P.; Tsai, K.W.; Yeh, M. H.; Vittal,R.; Ho, K. C. J. Phys. Chem. C 2010, 114 (49), 21808.  

    20. [20]

      (20) Wang, Y. Q.;Wei, Z. D.; Cai, H. Y.; Zhang, J.; Zhao, Q. L. Acta Phys.-Chim. Sin. 2010, 26 (11), 2957. [王耀琼, 魏子栋, 蔡洪英, 张骞, 赵巧玲. 物理化学学报, 2010, 26 (11), 2957.]

    21. [21]

      (21) Allongue, P.; Souteyrand, E. J. Electroanal. Chem. 1990, 286 (1-2), 217.  

    22. [22]

      (22) Allongue, P.; Souteyrand, E. J. Electroanal. Chem. 1993, 362 (1-2), 79.  

    23. [23]

      (23) Basirun,W. J.; Pletcher, D.; Saraby-Reintjes, A. J. Appl. Electrochem. 1996, 26 (8), 873.  

    24. [24]

      (24) Farndon, E. E.; Pletcher, D.; Saraby-Reintjes, A. Electrochim. Acta 1997, 42 (8), 1269.  

    25. [25]

      (25) Kelaidopoulou, A.; Kokkinidis, G.; Milchev, A. J. Electroanal. Chem. 1998, 444 (2), 195.  

    26. [26]

      (26) Gloaguen, F.; Leger, J. M.; Lamy, C.; Marmann, A.; Stimming,U.; Vogel, R. Electrochim. Acta 1999, 44 (11), 1805.  

    27. [27]

      (27) Lin, C. Y.; Lin, J. Y.;Wan, C. C.;Wei, T. C. Electrochim. Acta2011, 56 (5), 1941.  

    28. [28]

      (28) Yang, C. C.; Zhang, H. Q.; Zheng, Y. R. Curr. Appl. Phys. 2011,11 (Sp. Iss. SI Suppl. 1), S147.

    29. [29]

      (29) Yoon, C. H.; Vittal, R.; Lee, J.; Chae,W. S.; Kim, K. J.Electrochim. Acta 2008, 53 (6), 2890.  

    30. [30]

      (30) Chen, L. L.; Tan,W.W.; Zhang, J. B.; Zhou, X.W.; Zhang, X.L.; Lin, Y. Electrochim. Acta 2010, 55 (11), 3721.  

    31. [31]

      (31) Chen, C. M.; Chen, C. H.;Wei, T. C. Electrochim. Acta 2010, 55 (5), 1687.  

    32. [32]

      (32) Lan, J. L.;Wang, Y. Y.;Wan, C. C.;Wei, T. C.; Feng, H. P.;Peng, C.; Cheng, H. P.; Chang, Y. H.; Hsu,W. C. Curr. Appl. Phys. 2010, 10 (Sp. Iss. SI Suppl. 2) , S168.

    33. [33]

      (33) Wang, G. Q.; Gu, J. F.; Zhuo, S. P. Chinese Chemical Letters2010, 21 (12), 1513.  

    34. [34]

      (34) Li, P. J.;Wu, J. H.; Lin, J. M.; Huang, M. L.; Huang, Y. F.; Li,Q. G. Sol. Energy 2009, 83 (69) , 845.  

    35. [35]

      (35) Huang, K. C.;Wang, Y. C.; Dong, R. X. Tsai,W. C. Tsai, K.W.;Wang, C. C.; Chen, Y. H.; Vittal, R.; Lin, J. J.; Ho, K. C.J. Mater. Chem. 2010, 20 (20), 4067.  

    36. [36]

      (36) Kay, A.; Grätzel, M. Sol. Energy Mater. Sol. Cells 1996, 44 (1),99.  

    37. [37]

      (37) Olsen, E.; Hagen, G.; Lindquist, S. E. Sol. Energy Mater. Sol. Cells 2000, 63 (3), 267.  

    38. [38]

      (38) Sapp, S. A.; Elliott, C. M.; Contado, C. Caramori, S.; Bignozzi,C. A. J. Am. Chem. Soc. 2002, 124 (37), 11215.  

    39. [39]

      (39) Fan, L. Q.;Wu, J. H.; Huang, Y. F.; Lin, J. M. Electronic Components and Materials 2003, 22 (5), 1. [范乐庆, 吴季怀,黄昀昉, 林建明. 电子元件与材料, 2003, 22 (5), 1.]

    40. [40]

      (40) Ma, T. L.; Fang, X. M.; Akiyama, M.; Inoue, K.; Noma, H.;Abe, E.; J. Electroanal. Chem. 2004, 574 (1), 77.  

    41. [41]

      (41) Fang, X. M.; Ma T. L.; Akiyama, M.; Guan, G. Q.; Tsunematsu,S.; Abe, E. Thin Solid Films, 2005, 472 (1-2), 242.  

    42. [42]

      (42) Chen, J. K.; Li, K. X.; Luo, Y. H.; Guo, X. Z.; Li, D. M.; Deng,M. H.; Huang, S. Q.; Meng, Q. B. Carbon 2009, 47 (11), 2704.  

    43. [43]

      (43) Wang, G. Q.;Wang, L.; Xing,W.; Zhuo, S. Q. Mater. Chem. Phys. 2010, 123 (2-3), 690.  

    44. [44]

      (44) Lei, B. X.; Fang,W. J.; Hou, Y. F.; Liao, J. Y.; Kuang, D. B.; Su,C. Y. J. Photochem. Photobiol. A-Chem. 2010, 216 (1), 8.  

    45. [45]

      (45) Acharya, K. P.; Khatri, H.; Marsillac, S.; Ullrich, B.;Anzenbacher, P.; Zamkov, M. Appl. Phys. Lett. 2010, 97, 201108

    46. [46]

      (46) Denaro, T.; Baglio, V.; Girolamo, M.; Antonucci, V.; Aricó, A.S.; Matteucci, F.; Ornelas, R. J. Appl. Electrochem. 2009, 39 (11), 2173.  

    47. [47]

      (47) Li, P.; Hu, Z. Q.; Su, Y.; ng, C. C. Journal of Dalian Polytechnic University 2009, 29 (4), 274. [李璞, 胡志强,苏岩, 巩翠翠. 大连工业大学学报, 2009, 29 (4), 274.]

    48. [48]

      (48) Yang, D. Y.; Zhang, H. Y.; Xie,W.; Ge, Y.; Chen, T. L. Materials Research and Application 2008, 2 (4), 447. [杨大勇, 张海燕,谢慰, 葛鹰, 陈天立. 材料研究与应用, 2008, 4 (2), 447.]

    49. [49]

      (49) Ramasamy, E.; Lee, J. Cabon 2010, 48 (13), 3715.

    50. [50]

      (50) Jiang, Q.W.; Li, G. R.;Wang, F.; Gao, X. P. Electrochem. Commun. 2010, 12 (7) , 924.  

    51. [51]

      (51) Peng, S. J.; Cheng, F. Y.; Shi, J. F.; Liang, .Y.; Tao, Z. L.; Chen,J. Solid State Sci. 2009, 11 (12) , 2051.  

    52. [52]

      (52) Ramasamy, E.; Chun, J.; Lee, J. Carbon 2010, 48 (15), 4563.  

    53. [53]

      (53) Fan, S. Q.; Fang, B.; Kim, J. H.; Jeong, B.; Kim, C.; Yu J. S.;Ko, J. Langmuir 2010, 26 (16), 13644.  

    54. [54]

      (54) Wang, G. Q.; Gao, J. P. Journal of Functional Materials 2011,42 (1), 14. [王桂强, 禚淑萍. 功能材料, 2011, 42 (1), 14.]

    55. [55]

      (55) Dresselhaus, M. S.; Dai, H. MRS Bull. 2004, 29 (4), 237.  

    56. [56]

      (56) Nam, J. G.; Park, Y. J.; Kim, B. S.; Lee, J. S. Scripta Mater.2010, 62 (3), 148.  

    57. [57]

      (57) Aitola, K.; Kaskela, A.; Halme, J. Ruiz, V.; Nasibulin, A. G.;Kauppinen, E. I.; Lunda, P. D. J. Electrochem. Soc. 2010, 157 (12), B1831.

    58. [58]

      (58) Zhang, D.W.; Li, X. D.; Chen, S.; Tao, F.; Sun, Z.; Yin, X. J.;Huang, S. M. J. Solid State Electrochem. 2010, 14 (9), 1541.  

    59. [59]

      (59) Han, J.; Kim, H.; Kim, D. Y.; Jo, S. M.; Jang, S. Y. ACS Nano2010, 4 (6), 3503.  

    60. [60]

      (60) Sayer, R. A.; Hodson, S. L.; Fisher, T. S. J. Sol. Energy Eng.2010, 132 (2), 021007.  

    61. [61]

      (61) Lee, S. U.; Choi,W. S.; Hong, B. Sol. Energy Mater. Sol. Cells2010, 94 (4), 680.  

    62. [62]

      (62) Calogero, G.; Bonaccorso, F.; Mara , O. M.; Gucciardi, P. G.;Di Marco, G. Dalton Trans. 2010, 39 (11), 2903.  

    63. [63]

      (63) Chou, C. S.; Yang, R. Y.;Weng, M. H.; Huang, C. I. Adv. Powder Technol. 2009, 20 (4), 310.  

    64. [64]

      (64) Gagliardi, S.; Giorgi, L.; Giorgi, R.; Lisi, N.; Makris, T. D.;Salernitano, E.; Rufoloni, A. Superlattices Microstruct. 2009,46 (1-2), 205.  

    65. [65]

      (65) Lee,W. J.; Ramasamy, E.; Lee, D. Y.; Song, J. S. ACS Appl. Mater. Interfaces 2009, 1 (6), 1145.  

    66. [66]

      (66) Lin, J. P.; Zhang, H. Y.; Chen, Y. M.;Wei, A. X.; Liu, C. B.;Chen, Y. T. Transactions of Nonferrous Metals Society of China2010, 20 (9), 1753. [林嘉鹏, 张海燕, 陈易明, 魏爱香, 刘传标, 陈雨婷. 中国有色金属学报, 2010, 20 (9), 1753.]

    67. [67]

      (67) Liu, G. S.; Zhang,W.W.; Hu, Z. Q.; Feng, J. Journal of Dalian Polytechnic University 2010, 1 (30), 50. [刘贵山, 张娓娓,胡志强, 冯俊. 大连工业大学学报, 2010, 1 (30), 50.]

    68. [68]

      (68) Tang, Y. B.; Lee, C. S.; Xu, J.; Liu, Z. T.; Chen, Z. H.; He, Z. B.;Cao, Y. L.; Yuan, G. D.; Song, H. S.; Chen, L. M.; Luo, L. B.;Cheng, H. M.; Zhang,W. J.; Bello, I.; Lee, S. T. ACS Nano2010, 4 (6), 3482.  

    69. [69]

      (69) Choi, H.; Kim, H.; Hwang, S.; Choi,W.; Jeon, M. Sol. Energy Mater. Sol. Cells 2011, 95 (1), 323.  

    70. [70]

      (70) Choi, H.; Kim, H.; Hwang, S.; Kang, M.; Jung, D.W.; Jeon, M.Scripta Mater. 2011, 64 (7), 601.  

    71. [71]

      (71) Roy-Mayhew, J. D.; Bozym, D. J.; Punckt, C.; Aksay, I. A. ACS Nano 2010, 4 (1), 6203.  

    72. [72]

      (72) Zhang, D.W.; Li, X. D.; Chen, S.; Li, H. B.; Sun, Z.; Yin, X. J.;Huang, S. M. Graphene nanosheet counter-electrodes for dyesensitizedsolar cells. In IEEE CONFERENCES, Nanoelectronics Conference (INEC), 2010 3rd International,Hong Kong, China, Jan. 3-8, 2010.

    73. [73]

      (73) Wan, L.;Wang, S. M.;Wang, X. B.; Dong, B. H.; Xu, Z. X.;Zhang, X. H.; Yang, B.; Peng, S. M.;Wang, J. C.; Xu, C. H.Solid State Sci. 2011, 13 (2), 468.  

    74. [74]

      (74) Kavan, L.; Yum, J. H.; Grätzel, M. ACS Nano 2011, 5 (1), 165.  

    75. [75]

      (75) Yohannes, T.; Inganäs, O. Sol. Energy Mater. Sol. Cells 1998, 51 (2) , 193.  

    76. [76]

      (76) Hong,W. J.; Xu, Y. X.; Lu, G.W.; Li, C.; Shi, G. Q.Electrochem. Commun. 2008, 10 (10), 1555.  

    77. [77]

      (77) Lee, K. M.; Chiu,W. H.;Wei, H. Y.; Hu, C.W.;Suryanarayanan, V.; Hsieh,W. F.; Ho, K. C. Thin Solid Films2010, 518 (6) ,1716.  

    78. [78]

      (78) Lee, K. M.; Chen, P. Y.; Hsu, C. Y. Huang, J. H.; Ho,W. H.;Chen, H. C.; Ho, K. C. J. Power Sources 2009, 188 (1), 313.  

    79. [79]

      (79) Sakaguchi, S.; Ueki, H.; Kato, T.; Kado, T.; Shiratuchi, R.;Takashima,W.; Kaneto, K.; Hayase, S. J. Photochem. Photobiol. A-Chem. 2004, 164 (1-3), 117.  

    80. [80]

      (80) Balraju, P.; Kumar, M.; Roy, M. S.; Sharma, G. D. Synth. Met.2009, 159 (13), 1325.  

    81. [81]

      (81) Balraju, P.; Suresh, P.; Kumar, M.; Roy, M. S.; Sharma, G. D.J. Photochem. Photobiol. A-Chem. 2009, 206 (1), 53.  

    82. [82]

      (82) ng, C. C.; Hu, Z. Q.; Su, Y.; Li, P.; Zhou, H. R.; Kang,J.Microfabrication Technology, 2008, 6, 58. [巩翠翠, 胡志强,苏岩, 李璞, 周红茹, 康姣. 微细加工技术, 2008, 6, 58.]

    83. [83]

      (83) Lee, K. M.; Hsu, C. Y.; Chen, P. Y. Ikegami, M.; Miyasaka, T.;Ho, K. C. Phys. Chem. Chem. Phys. 2009, 11 (18) , 3375.

    84. [84]

      (84) Makris, T.; Dracopoulos, V.; Stergiopoulos, T.; Lianos, P.Electrochim. Acta 2011, 56 (5), 2004.  

    85. [85]

      (85) Zhang, J.; Hreid, T.; Li, X. X.; Guo,W.;Wang, L. P.; Shi, X. T.;Su, H. Q.; Yuan, Z. B. Electrochim. Acta 2010, 55 (11), 3664.  

    86. [86]

      (86) Ameen, S.; Akhtar, M. S.; Kim, Y. S.; Yang, O. B.; Shin, H. S.J. Phys. Chem. C 2010, 114 (10), 4760.

    87. [87]

      (87) Tu, B. X. Electrochemical Fabrication of NanostructuredPolyaniline Film Counter Electrode for Dye-Sensitized SolarCells. Master Dissertation. University Of The Inner Mon l,Inner Mon l, 2010. [图布新. 电化学法制备染料敏化太阳能电池中的纳米结构聚苯胺薄膜对电极[M]. 内蒙古: 内蒙古大学, 2010.]

    88. [88]

      (88) Ye, B. X. Dye-Sensitized Solar Cells with Ionic LiquidsElectrolyte and Electropolymerized-PANI Count Electrode.Master Dissertation. Lanzhou University, Gansu, 2009. [叶报喜, 基于电聚合聚苯胺对电极的离子液体型染料敏化太阳能电池[M] 甘肃: 兰州大学, 2009.]

    89. [89]

      (89) Xia, J. B.; Yuan, C. C. Yanagida, S. ACS Appl. Mater. Interfaces2010, 2 (7), 2136.  

    90. [90]

      (90) Jiang, Q.W.; Li, G. R.; Gao, X. P. Chem. Commun. 2009, No.44, 6720.

    91. [91]

      (91) Chou, C. S.; Hsiung, C. M.;Wang, C. P. Int. J. Photoenergy2010, 902385.

    92. [92]

      (92) Liu, J.; Yang, H. T.; Zhang, J. B.; Zhou, X.W.; Lin, Y. Acta Phys. -Chim. Sin. 2011, 27 (2), 408. [刘佳, 杨浩田, 张敬波, 周晓文, 林原. 物理化学学报, 2011, 27 (27), 408.]

    93. [93]

      (93) Lao, C. F.; Chu, Z. Z.; Zou, D. C. Acta Phys. -Chim. Sin. 2011,27 (2), 419. [劳春峰, 初增泽, 邹德春. 物理化学学报, 2011,27 (2), 419.]

    94. [94]

      (94) Chen, D. P.; Zhang, X. D.;Wei, C. C.; Liu, C. C.; Zhao, Y. Acta Phys. -Chim. Sin. 2011, 27 (2), 425. [陈东坡, 张晓丹, 魏长春, 刘彩池, 赵颖. 物理化学学报, 2011, 27 (2), 425.]

    95. [95]

      (95) Qian, D. F.; Zhang, Q. H.;Wan, J.; Li, Y. G.;Wang, H. Z. Acta Phys. -Chim. Sin. 2010, 26 (10), 2745. [钱迪峰, 张青红,万钧, 李耀刚, 王宏志. 物理化学学报, 2010, 26 (10), 2745.]

    96. [96]

      (96) Wang, H. Y.; Peng, B.;Wei,W. Prog. Chem. 2008, 20 (11),1751. [王洪宇, 彭波, 韦玮. 化学进展, 2008, 20 (11),1751.]

    97. [97]

      (97) Sheng, X. L.; Liu, N. R.; Zhai, J.; An, L. P. Prog. Chem. 2009,21 (9), 1969. [盛显良, 刘娜仁, 翟锦,安丽平. 化学进展,2009, 21 (9), 1969.]

    98. [98]

      (98) Wang, D. A.; Liu, Y.;Wang, C.W.; Zhou,W. Prog. Chem. 2010,22 (6), 1035. [王道爱, 刘盈, 王成伟, 周峰. 化学进展,2010, 22 (6), 1035.]

    99. [99]

      (99) Li, H. H.; Chen, R. F.; Ma, C.; Zhang, S. L.; An, Z. F.; Hang,W.Acta Phys. -Chim. Sin. 2011, 27 (5), 1017. [李欢欢, 陈润锋,马琮, 张胜兰, 安众福, 黄维. 物理化学学报, 2011, 27 (5),1017.]

    100. [100]

      (100) Wang,W. J.; Yang, Y.; Guo, X. Y.; Tian, Q. H. Chemistry 2011,No. 2, 144. [王惟嘉, 杨英, 郭学益, 田庆华. 化学通报,2011, No. 2, 144.]

    101. [101]

      (101) Chen, Z. N.; Zhao, K.;Wu, X. H.;Wang, Y. P. Materials Science and Technology 2011, No. 1, 95. [陈振宁, 赵慨,吴晓宏, 王艳萍. 材料科学与工艺, 2011, No. 1, 95.]

    102. [102]

      (102) Qin, D.; Guo, X. Z.; Sun, H. C.; Luo, Y. H.; Meng, Q. B.; Li,D. M. Prog. Chem. 2011, 23 (Z1), 557. [秦达; 郭晓枝; 孙惠成, 罗艳红, 孟庆波, 李冬梅. 化学进展, 2011, 23 (Z1),557.]

    103. [103]

      (103) Hu, Z. Q.; Xu, F. Y.; Zhou, H. R.;Wang, R. B.; Gao, H. New Chemical Materials 2010, No. S1, 42. [胡志强, 许芳怡,周红茹, 王仁博, 高宏. 化工新型材料, 2010, No. S1, 42.]

    104. [104]

      (104) Zan,W. S.; Pan, S.; Li, Y. Z.; Chen, M. D. Acta Phys. -Chim. Sin. 2010, 26 (5), 1408. [詹卫伸, 潘石, 李源作, 陈茂笃.物理化学学报, 2010, 26 (5), 1408.]

    105. [105]

      (105) Wang, Z. S.; Cui, Y.; Dan-Oh, Y.; Kasada, C.; Shinpo, A.; HaraK. J. Phys. Chem. C 2008, 112 (43), 17011.  

    106. [106]

      (106) Zhou, G.; Pschirer, N.; Schoneboom, J. C.; Eickemeyer, F.;Baumgarten, M.; Mullen, K. Chem. Mater. 2008, 20 (5), 1808.  

    107. [107]

      (107) Wang, Z. S.; Koumura, N.; Cui, Y.; Takahashi, M.; Sekiguchi,H.; Mori, A.; Kubo, T.; Furube A.; Hara K. Chem. Mater.2008, 20 (12), 3993.  

    108. [108]

      (108) Liu,W. Q.; Hu, L. H.; Huo, Z. P.; Dai, S. Y. Prog. Chem. 2009,21 (6), 1085. [刘伟庆, 胡林华, 霍志鹏, 戴松元. 化学进展,2009, 21 (6), 1085.]

    109. [109]

      (109) Yang, L.; Xin, G.;Wu, L. Q.; Ma, T. L. Prog. Chem. 2009, 21 (10), 2242. [杨丽, 辛钢, 吴丽琼, 马廷丽. 化学进展,2009, 21 (10), 2242.]

    110. [110]

      (110) Zhu, J.; Dai, S. Y.; Zhang, Y. H. Prog. Chem. 2010, 22 (5), 822.[朱俊, 戴松元, 张耀红. 化学进展, 2010, 22 (5), 822.]

    111. [111]

      (111) Lan, Z.;Wu, J. H. Prog. Chem. 2010, 22 (11), 2248. [兰章,吴季怀. 化学进展, 2010, 22 (11), 2248.]

    112. [112]

      (112) Esquivel, K.; Arriaga, L. G.; Rodriguez, F. J.; Martinez, L.; dinez, L. A. Water Res. 2009, 43 (14), 3593.  

    113. [113]

      (113) Toivola, M.; Ferenets, M.; Lund, P.; Harlin, A. Thin Solid Films 2009, 517 (8), 2799.  

    114. [114]

      (114) Fan, X.; Chu, Z. Z.;Wang, F. Z.; Zhang, C.; Chen, L.; Tang, Y.W.; Zou, D. C. Adv. Mater. 2008, 20 (3), 592.  

    115. [115]

      (115) Zou, D. C.;Wang, D.; Chu, Z. Z.; Lv, Z. B.; Fan X. Coord. Chem. Rev. 2010, 254 (9-10), 1169.  

    116. [116]

      (116) Liu, Y.;Wang, H.; Shen, H.; Chen,W. Appl. Energy 2010, 87 (2), 436.  

    117. [117]

      (117) Wang, Y. H.; Liu, Y.; Yang, H. X.;Wang, H.; Shen, H.; Li, M.;Yan, J. Curr. Appl. Phys. 2010, 10 (1), 119.  

    118. [118]

      (118) Weintraub, B.;Wei, Y. G.;Wang, Z. L. Angew. Chem.-Int. Edit.2009, 48 (47), 8981.  

    119. [119]

      (119) Wang, H.; Li, M.; Huang, H.; Zhong, M. Y.; Shen, H. Appl. Phys. A-Mater. Sci. Process. 2009, 97 (1), 25.  

  • 加载中
    1. [1]

      Pengyu DongYue JiangZhengchi YangLicheng LiuGu LiXinyang WenZhen WangXinbo ShiGuofu ZhouJun-Ming LiuJinwei Gao . NbSe2 Nanosheets Improved the Buried Interface for Perovskite Solar Cells. Acta Physico-Chimica Sinica, 2025, 41(3): 2407025-0. doi: 10.3866/PKU.WHXB202407025

    2. [2]

      Jingshuo ZhangYue ZhaiZiyun ZhaoJiaxing HeWei WeiJing XiaoShichao WuQuan-Hong Yang . Research Progress of Functional Binders in Silicon-Based Anodes for Lithium-Ion Batteries. Acta Physico-Chimica Sinica, 2024, 40(6): 2306006-0. doi: 10.3866/PKU.WHXB202306006

    3. [3]

      Fanpeng MengFei ZhaoJingkai LinJinsheng ZhaoHuayang ZhangShaobin Wang . Optimizing interfacial electric fields in carbon nitride nanosheet/spherical conjugated polymer S-scheme heterojunction for hydrogen evolution. Acta Physico-Chimica Sinica, 2025, 41(8): 100095-0. doi: 10.1016/j.actphy.2025.100095

    4. [4]

      Hanmei LüXin ChenQifu SunNing ZhaoXiangxin Guo . Uniform Garnet Nanoparticle Dispersion in Composite Polymer Electrolytes. Acta Physico-Chimica Sinica, 2024, 40(3): 2305016-0. doi: 10.3866/PKU.WHXB202305016

    5. [5]

      Qi LiPingan LiZetong LiuJiahui ZhangHao ZhangWeilai YuXianluo Hu . Fabricating Micro/Nanostructured Separators and Electrode Materials by Coaxial Electrospinning for Lithium-Ion Batteries: From Fundamentals to Applications. Acta Physico-Chimica Sinica, 2024, 40(10): 2311030-0. doi: 10.3866/PKU.WHXB202311030

    6. [6]

      Ruonan LiShijie LiangYunhua XuCuifen ZhangZheng TangBaiqiao LiuWeiwei Li . Chlorine-Substituted Double-Cable Conjugated Polymers with Near-Infrared Absorption for Low Energy Loss Single-Component Organic Solar Cells. Acta Physico-Chimica Sinica, 2024, 40(8): 2307037-0. doi: 10.3866/PKU.WHXB202307037

    7. [7]

      Junli Liu . Practice and Exploration of Research-Oriented Classroom Teaching in the Integration of Science and Education: a Case Study on the Synthesis of Sub-Nanometer Metal Oxide Materials and Their Application in Battery Energy Storage. University Chemistry, 2024, 39(10): 249-254. doi: 10.12461/PKU.DXHX202404023

    8. [8]

      Yikai WangXiaolin JiangHaoming SongNan WeiYifan WangXinjun XuCuihong LiHao LuYahui LiuZhishan Bo . Thickness-Insensitive, Cyano-Modified Perylene Diimide Derivative as a Cathode Interlayer Material for High-Efficiency Organic Solar Cells. Acta Physico-Chimica Sinica, 2025, 41(3): 2406007-0. doi: 10.3866/PKU.WHXB202406007

    9. [9]

      Ke QiuFengmei WangMochou LiaoKerun ZhuJiawei ChenWei ZhangYongyao XiaXiaoli DongFei Wang . A Fumed SiO2-based Composite Hydrogel Polymer Electrolyte for Near-Neutral Zinc-Air Batteries. Acta Physico-Chimica Sinica, 2024, 40(3): 2304036-0. doi: 10.3866/PKU.WHXB202304036

    10. [10]

      Bao Jia Yunzhe Ke Shiyue Sun Dongxue Yu Ying Liu Shuaishuai Ding . Innovative Experimental Teaching for the Preparation and Modification of Conductive Organic Polymer Thin Films in Undergraduate Courses. University Chemistry, 2024, 39(10): 271-282. doi: 10.12461/PKU.DXHX202404121

    11. [11]

      Yu'ang Liu Yuechao Wu Junyu Huang Tao Wang Xiaohong Liu Tianying Yan . Computation of Absolute Electrode Potential of Standard Hydrogen Electrode Using Ab Initio Method. University Chemistry, 2025, 40(3): 215-222. doi: 10.12461/PKU.DXHX202407112

    12. [12]

      Mengfei HeChao ChenYue TangSi MengZunfa WangLiyu WangJiabao XingXinyu ZhangJiahui HuangJiangbo LuHongmei JingXiangyu LiuHua Xu . Epitaxial Growth of Nonlayered 2D MnTe Nanosheets with Thickness-Tunable Conduction for p-Type Field Effect Transistor and Superior Contact Electrode. Acta Physico-Chimica Sinica, 2025, 41(2): 2310029-0. doi: 10.3866/PKU.WHXB202310029

    13. [13]

      Ying LiYushen ZhaoKai ChenXu LiuTingfeng YiLi-Feng Chen . Rational Design of Cross-Linked N-Doped C-Sn Nanofibers as Free-Standing Electrodes towards High-Performance Li-Ion Battery Anodes. Acta Physico-Chimica Sinica, 2024, 40(3): 2305007-0. doi: 10.3866/PKU.WHXB202305007

    14. [14]

      Juan WANGZhongqiu WANGQin SHANGGuohong WANGJinmao LI . NiS and Pt as dual co-catalysts for the enhanced photocatalytic H2 production activity of BaTiO3 nanofibers. Chinese Journal of Inorganic Chemistry, 2024, 40(9): 1719-1730. doi: 10.11862/CJIC.20240102

    15. [15]

      Yan XinYunnian GeZezhong LiQiaobao ZhangHuajun Tian . Research Progress on Modification Strategies of Organic Electrode Materials for Energy Storage Batteries. Acta Physico-Chimica Sinica, 2024, 40(2): 2303060-0. doi: 10.3866/PKU.WHXB202303060

    16. [16]

      Guangming YINHuaiyao WANGJianhua ZHENGXinyue DONGJian LIYi'nan SUNYiming GAOBingbing WANG . Preparation and photocatalytic degradation performance of Ag/protonated g-C3N4 nanorod materials. Chinese Journal of Inorganic Chemistry, 2024, 40(8): 1491-1500. doi: 10.11862/CJIC.20240086

    17. [17]

      Yipeng Zhou Chenxin Ran Zhongbin Wu . Metacognitive Enhancement in Diversifying Ideological and Political Education within Graduate Course: A Case Study on “Solar Cell Performance Enhancement Technology”. University Chemistry, 2024, 39(6): 151-159. doi: 10.3866/PKU.DXHX202312096

    18. [18]

      Jianqiao ZHANGYang LIUYan HEYaling ZHOUFan YANGShihui CHENGBin XIAZhong WANGShijian CHEN . Ni-doped WP2 nanowire self-standingelectrode: Preparation and alkaline electrocatalytic hydrogen evolution property. Chinese Journal of Inorganic Chemistry, 2025, 41(8): 1610-1616. doi: 10.11862/CJIC.20240444

    19. [19]

      Yinyin Qian Rui Xu . Utilizing VESTA Software in the Context of Material Chemistry: Analyzing Twin Crystal Nanostructures in Indium Antimonide. University Chemistry, 2024, 39(3): 103-107. doi: 10.3866/PKU.DXHX202307051

    20. [20]

      Yuxia Luo Xiaoyu Xie Fangfang Chen . 药物递送魔法师——分子印迹聚合物. University Chemistry, 2025, 40(8): 202-210. doi: 10.12461/PKU.DXHX202409129

Get Citation
PDF
XML
Metrics
  • PDF Downloads(5073)
  • Abstract views(8577)
  • HTML views(255)

通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索
Address:Zhongguancun North First Street 2,100190 Beijing, PR China Tel: +86-010-82449177-888
Powered By info@rhhz.net

/

DownLoad:  Full-Size Img  PowerPoint
Return