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Progress in Chemistry 2006, Vol. 18 Issue (0203): 182-188 Previous Articles   Next Articles

• Review •

The Ordering Microstructure and Carriers Transportation in Activated Layers of Organic Photovoltaic Cell*

Wei Feng**;Yiyu Feng   

  1. School of Materials Science and Engineering, Tianjin University, Tianjin 300072,China
  • Received: Revised: Online: Published:
  • Contact: Wei Feng
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Based on analyzing the mechanism of the charge carriers generation and transportation in the organic photovoltaic cells, advanced methods to improve the power conversion efficiency (PCE) in the aspect of the microstructure of activated layer are introduced. A series of effective solutions to enhance the PCE of the organic photovoltaic cells are summarized, which may offer a promising prospect in the future work.
Key words: organic photovoltaic cells, microstructure, power conversion efficiency(PCE)

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[ 1 ] 封伟(Feng W) , 王晓工(Wang X G) . 化学通报(Chemistry) ,2003 , (5) : 291 —300
[ 2 ] Tang C W. Appl . Phys. Lett . , 1986 , 48 (2) : 183 —185
[ 3 ] Takahashi K, Kuraya N , Ramaguchi T, et al . Solar Energy Materials and Solar Cells , 2000 , 61 : 403 —416
[ 4 ] Smestad G P. Optoelectronics of Solar Cells. Washington : SPIE Press , 2002
[ 5 ] Brabec C J . Solar Energy Materials and Solar Cells , 2004 , 83 :273 —292
[ 6 ] Frankenvich E , Ozaki M, Yoshino K. J . Soc. Elect . Mat .Eng. , 2000 , 9 (1) : 4 —10
[ 7 ] Spanggaard H , Krebs F C. Solar EnergyMaterials and Solar Cells ,2004 , 83 : 125 —146
[ 8 ] Yu G, Zhang C , Heeger A J . Appl . Phys. Lett . , 1994 , 64 :1540 —1542
[ 9 ] Messiner D , Rostalski J . Synth. Met . , 2001 , 121 (1P3) : 1551 —1552
[10] Gebeyehu D , Maennig B , Drechsel J , et al . Solar Energy Materials and Solar Cells , 2003 , 79 : 81 —92
[11] Feng W, Fujii A , Lee S , et al . J . Appl . Phys. , 2000 , 8 (12) :7120 —7123
[12] Halls J J M, Walsh C A , Greenham N C , et al . Nature , 1995 ,376 : 498 —500
[13] Yu G, Gao J , Hummelen J , et al . Science , 1995 , 270 : 1789 —1791
[14] Brousse B , Ratier B , Moliton A. Thin Solid Films , 2004 , 451/452 : 81 —85
[15] Shaheen S E , Brabec C J , Saricfitci N S. Appl . Phys. Lett . ,2001 , 78 (6) : 841 —843
[16] Granstrom M, Petritsch K, Arias A C , et al . Nature , 1998 , 395 :257 —260
[17] Breeze A J , Schlesinger Z, Carter S A , et al . Solar Energy Materials and Solar Cells , 2004 , 83 : 263 —271
[18] Kwong C Y, Djurisic A B , Chui P C , et al . Chem. Phys. Lett . ,2004 , 384 : 372 —375
[19] Song M Y, Kim K J , Kim D Y. Solar Energy Materials and Solar Cells , 2005 , 85 : 31 —39
[20] Bach U , Lupo D , Comte P , et al . Nature , 1998 , 395 : 583 —585
[21] Kymakis E , Amaratunga G A J . Solar Energy Materials and Solar Cells , 2003 , 80 : 465 —472
[22] Wang C C , Guo Z X, Fu S K, et al . Progress in Polymer Science , 2004 , 29 : 1079 —1141
[23] 鹿海军(Lu H J ) , 梁国正(Liang G Z) , 张宝艳(Zhang B Y) ,马晚燕(Ma W Y) , 陈祥宝(Chen X B) . 材料导报(Materials Review) , 2003 , 17 (7) : 57 —60
[24] Osterbacka R , An C P , Jiang X, et al . Science , 2000 , 287 :839 —842
[25] Huynh W U , Dittmer J J , Janke J D , Alivisatos A P. Science ,2002 , 295 : 2425 —2427
[26] Feng W, Bai X D , Lian Y Q , et al . Carbon , 2003 , 41 : 1551 —1557
[27] Durstock M F , Taylor B , Spry R J , et al . Synth. Met . , 2001 ,116 : 373 —377
[28] Baur J W, Durstock M F , Talyor B E , et al . Synth. Met . , 2001 ,121 : 1547 —1548
[29] Mende L S , Fechtenkotter A , Mullen K, et al . Science , 2001 ,293 : 1119 —1122
[30] Adam D , Schuhmacher P , Simmerer J , et al . Nature , 1994 ,371 : 141 —143
[31] Feng W, Xu YL , Yi W H , et al . Chin. Phys. , 2003 , 12 (4) :426 —432
[32] Peumans P , Uchida S , Forrest S R. Nature , 2003 , 425 : 158 —162
[33] Lu SL , Yang M, Luo J , et al . Synth. Met . , 2004 , 140 : 199 —202
[34] De Boer B , Stalmach U , Paul F , et al . Polymer , 2001 , 42 :9097 —9109
[35] Cravino A , Zerza G, Maggini M, et al . Monatshefte fur Chemie. ,2003 , 134 : 519 —527
[36] Sun S. Solar Energy Materials and Solar Cells , 2003 , 79 : 257 —264
[37] Fujii A , Shirakawa T, Umeda T, et al . Jpn. J . Appl . Phys. ,2004 , 43 (8A) : 5573 —5576
[38] Armstrong N R , Carter C , Donley C. Thin Solid Films , 2003 ,445 : 342 —352
[39] Taima T, Chikamatsu M, Yoshida YJ , et al . Appl . Phys. Lett . ,2004 , 85 (10) : 1832 —1834
[40] Nelson J . Materials Today , 2002 , 5 : 20 —27
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