Polymer solar cells have many advantage of ultra-thin, flexibility, process and so on, but also have disadvantage of low efficiency compare to silicon solar cells or dye-sensitized solar cells. To improve the power conversion efficiency of polymer solar cells, it needs to study of various fields such as materials design, interfacial engineering, morphology, phase separation, device engineering, and electrodes. In this report, we will discuss the potential applications of π-conjugated polyelectrolytes for polymer solar cells as an interfacial layer.

1 C. J. Brabec, 102 : 861-, 1999

2 B. J. Worfolk, "Work function control of interfacial buffer layers for efficient and air-stable inverted low-bandgap organic photovoltaics" 2 : 361-, 2012

3 D. An, "White emission polymer light-emitting devices with efficient electron injection from alcohol/water-soluble polymer/Al bilayer cathode" 10 : 299-, 2009

4 S.–H. Oh, "Water-Soluble Polyfluorenes as an Interfacial Layer Leading to Cathode-Independent High Performance of Organic Solar Cells" 20 : 1977-, 2010

5 C. W. Tang, "Two-layer organic photovoltaic cell" 48 : 183-, 1986

6 N. Blouin, "Toward a Rational Design of Poly(2,7-Carbazole) Derivatives for Solar Cells" 130 : 732-, 2008

7 김동유, "Time-Dependent Morphology Evolution by Annealing Processes on Polymer:Fullerene Blend Solar Cells" WILEY-V C H VERLAG GMBH 19 (19): 866-874, 200903

8 R.–H. Lee, "Synthesis of quaternized ammonium iodide-containing conjugated polymer electrolytes and their application in dye-sensitized solar cells" 60 : 483-, 2011

9 H. J. Son, "Synthesis of fluorinated polythienothiophene-co-benzodithiophenes and effect of fluorination on the photovoltaic properties" 133 : 1885-, 2011

10 S. Wang, "Size-specific interactions between single- and double-stranded oligonucleotides and cationic water-soluble oligofluorenes" 13 : 463-, 2003

11 Q. S. Wei, "Self-organized buffer layers in organic solar cells" 20 : 2211-, 2008

12 H.–L. Yip, "Polymer solar cells that use self-assembled monolayer-modified ZnO/metals as cathodes" 20 : 2376-, 2008

13 김범준, "Photocrosslinkable Polythiophenes for Efficient, Thermally Stable, Organic Photovoltaics" WILEY-V C H VERLAG GMBH 19 (19): 2273-2281, 200907

14 C. He, "Origin of the enhanced open-circuit voltage in polymer solar cells via interfacial modification using conjugated polyelectrolytes" 20 : 2617-, 2010

15 T. M. Brown, "LiF/Al cathodes and the effect of LiF thickness on the device characteristics and built-in potential of polymer light-emitting diodes" 77 : 3096-, 2000

16 R. Stein, "Interface materials for organic solar cells" 20 : 2499-, 2010

17 K. Yao, "Influence of water-soluble polythiophene as an interfacial layer on the P3HT/PCBM bulk heterojunction organic photovoltaics" 21 : 13780-, 2011

18 Walker Bright James, "Improved Injection in n-Type Organic Transistors with Conjugated Polyelectrolytes" AMER CHEMICAL SOC 131 (131): 18220-18220, 200912

19 서정화, "Improved High-Efficiency Organic Solar Cells via Incorporation of a Conjugated Polyelectrolyte Interlayer" AMER CHEMICAL SOC 133 (133): 8416-8419, 201106

20 J. S. Park, "High performance polymer light-emitting diodes with N-type metal oxide/conjugated polyelectrolyte hybrid charge transport layers" 99 : 163305-, 2011

21 Q. M. Zhou, "Fluorene-based low band-gap copolymers for high performance photovoltaic devices" 84 : 1653-, 2004

22 J. Yoon, "Evidence of band bending observed by electroabsorption studies in polymer light emitting device with ionomer/Al or LiF/Al cathode" 76 : 2152-, 2002

23 F. Zhang, "Enhancing the photovoltage of polymer solar cells by using a modified cathode" 19 : 1835-, 2007

24 F. Hang, "Electron-Rich Alcohol-Soluble Neutral Conjugated Polymers as Highly Efficient Electron-Injecting Materials for Polymer Light-Emitting Diodes" 19 : 2457-, 2009

25 김동유, "Efficient organic solar cells with polyfluorene derivatives as a cathode interfacial layer" Elsevier BV 10 (10): 496-500, 200905

26 G. Li, "Efficient inverted polymer solar cells" 88 : 253503-, 2006

27 J. Peet, "Efficiency enhancement in low-bandgap polymer solar cells by processing with alkane dithiols" 6 : 497-, 2007

28 K.–Y. Pu, "Effect of charge density on energy-transfer properties of cationic conjugated polymers" 18 : 1321-, 2008

29 C. J. Brabec, "Effect of LiF/metal electrodes on the performance of plastic solar cells" 80 : 1288-, 2002

30 M. C. Scharber, "Design rules for donors in bulk-heterojunction solar cells-towards 10 % energy-conversion efficiency" 18 : 789-, 2006

31 Y. Kim, "Composition and annealing effects in polythiophene/fullerene solar cells" 40 : 1371-, 2004

32 T.-Y. Chu, "Bulk heterojunction solar cells using thieno[3,4- c]pyrrole-4,6-dione and dithieno[3,2-b:2',3'-d]silole copolymer with a power conversion efficiency of 7.3%" 133 : 4250-, 2011