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23. Tsao HN, Cho D, Andreasen JW, Rouhanipour A, Breiby DW, Pisula W, Mullen K (2009)
The influence of morphology on high-performance polymer field-effect transistors. Adv
Mater 21:209-212. doi:
10.1002/adma.200802032
24. Coffin RC, Peet J, Rogers J, Bazan GC (2009) Streamlined microwave-assisted preparation of
narrow-bandgap conjugated polymers for high-performance bulk heterojunction solar cells.
Nat Chem 1:657-661. doi:
10.1038/NCHEM.403
25. Zhu ZG, Waller D, Gaudiana R, Morana M, Mühlbacher D, Scharber M, Brabec C (2007)
Panchromatic
conjugated
polymers
containing
alternating
donor/acceptor
units
for
photovoltaic applications. Macromolecules 40:1981-1986. doi:
10.1021/ma062376o
26. Peet J, Kim JY, Coates NE, Ma WL, Moses D, Heeger AJ, Bazan GC (2007) Efficiency
enhancement in low-bandgap polymer solar cells by processing with alkane dithiols. Nat
Mater 6:497-500. doi:
10.1038/nmat1928
27. Su MS, Kuo CY, Yuan MC, Jeng US, Su CJ, Wei KH (2011) Improving device efficiency of
polymer/fullerene bulk heterojunction solar cells through enhanced crystallinity and reduced
grain boundaries induced by solvent additives. Adv Mater 23:3315-3319. doi:
10.1002/
28. Hou J, Chen HY, Zhang S, Li G, Yang Y (2008) Synthesis, characterization, and photovoltaic
properties of a low band gap polymer based on silole-containing polythiophenes and 2,1,3-
benzothiadiazole. J Am Chem Soc 130:16144-16145. doi:
10.1021/ja806687u
29. Chen HY, Hou J, Hayden AE, Yang H, Houk KN, Yang Y (2010) Silicon atom substitution
enhances interchain packing in a thiophene-based polymer system. Adv Mater 22:371-375.
30. Yue W, Zhao Y, Shao S, Tian H, Xie Z, Geng Y, Wang F (2009) Novel NIR-absorbing
conjugated polymers for efficient polymer solar cells: effect of alkyl chain length on device
performance. J Mater Chem 19:2199-2206. doi:
10.1039/b818885h
31. Chen MH, Hou J, Hong Z, Yang G, Sista S, Chen LM, Yang Y (2009) Efficient polymer solar
cells with thin active layers based on alternating polyfluorene copolymer/fullerene bulk
heterojunctions. Adv Mater 21:4238-4242. doi:
10.1002/adma.200900510
32. Wang E, Wang L, Lan L, Luo C, Zhuang W, Peng J, Cao Y (2008) High-performance
polymer heterojunction solar cells of a polysilafluorene derivative. Appl Phys Lett 92:
033307-1-3. doi:
10.1063/1.2836266
33. Blouin N, Michaud A, Gendron D, Wakim, Blair E, Neagu-Plesu R, Belletete M, Durocher
G, Tao Y, Leclerc M (2008) Toward a rational design of poly(2,7-carbazole) derivatives for
solar cells. J Am Chem Soc 130:732-733. doi:
10.1021/ja0771989
34. Zhou EJ, Nakamura M, Nishizawa T, Zhang Y, Wei QS, Tajima K, Yang CH, Hashimoto K
(2008) Synthesis and photovoltaic properties of a novel low band gap polymer based on n-
substituted
dithieno[3,2-b:2
0
,3
0
-d]pyrrole.
Macromolecules
41:8302-8305.
doi:
10.1021/
35. Moulé J, Tsami A, Bünnagel TW, Forster M, Kronenberg NM, Scharber M, Koppe M,
Morana M, Brabec CJ, Meerholz K, Scherf U (2008) Two novel cyclopentadithiophene-
based
alternating
copolymers
as
potential
donor
components
for
high-efficiency
bulk-
heterojunction-type solar cells. Chem Mater 20:4045-4050. doi:
10.1021/cm8006638
36. Huo LJ, Hou JH, Zhang SQ, Chen HY, Yang YA (2010) Polybenzo[1,2-b:4,5-b
0
]dithiophene
derivative with deep homo level and its application in high-performance polymer solar cells.
Angew Chem Int Ed 49:1500-1503. doi:
10.1002/anie.200906934
37. Huo LJ, Guo X, Li YF, Hou JH (2011) Synthesis of a polythieno[3,4-b]thiophene derivative
with a low-lying HOMO level and its application in polymer solar cells. Chem Commun
47:8850-8852. doi:
10.1039/c1cc12643a
38. Liu J, Zhang R, Sauve G, Kowalewski T, McCullough RD (2008) Highly disordered polymer
field effect transistors: n-alkyl dithieno[3,2-b:2',3'-d]pyrrole-based copolymers with
surprisingly high charge carrier mobilities. J Am Chem Soc 130:13167-13176. doi:
10.
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