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W2113403249 endingPage "2092" @default.
W2113403249 startingPage "2073" @default.
W2113403249 abstract "Abstract Five novel conjugated copolymers ( P1 – P5 ) containing coplanar cyclopentadithiophene (CPDT) units (incorporated with arylcyanovinyl and keto groups in different molar ratios) were synthesized and developed for the applications of polymer solar cells (PSCs). Polymers P1 – P5 covered broad absorption ranges from UV to near infrared (400–900 nm) with narrow optical band gaps of 1.38–1.70 eV, which are compatible with the maximum solar photon reflux. Partially reversible p ‐ and n ‐doping processes of P1 – P5 in electrochemical experiments were observed, and the proper molecular design for highest occupied molecular orbital (HOMO)/lowest unoccupied molecular orbital (LUMO) levels of P1 – P5 induced the highest photovoltaic open‐circuit voltage in the PSC devices, compared with those previously reported CPDT‐based narrow‐band‐gap polymers. Powder X‐ray diffraction (XRD) analyses suggested that these copolymers formed self‐assembled π‐π stacking and pseudobilayered structures. Under 100 mW/cm 2 of AM 1.5 white‐light illumination, bulk heterojunction PSC devices containing an active layer of electron donor polymers P1 – P5 mixed with electron acceptor [6,6]‐phenyl C 61 butyric acid methyl ester (PCBM) in the weight ratio of 1:4 were investigated. The PSC device containing P1 gave the best preliminary result with an open‐circuit voltage of 0.84 V, a short‐circuit current of 2.36 mA/cm 2 , and a fill factor of 0.38, offering an overall power conversion efficiency (PCE) of 0.77% as well as a maximal quantum efficiency of 23% from the external quantum efficiency (EQE) measurements. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 2073–2092, 2009" @default.
W2113403249 created "2016-06-24" @default.
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W2113403249 creator A5066935704 @default.
W2113403249 date "2009-03-11" @default.
W2113403249 modified "2023-10-18" @default.
W2113403249 title "Soluble narrow-band-gap copolymers containing novel cyclopentadithiophene units for organic photovoltaic cell applications" @default.
W2113403249 cites W1969508190 @default.
W2113403249 cites W1969723408 @default.
W2113403249 cites W1969732071 @default.
W2113403249 cites W1969876548 @default.
W2113403249 cites W1972472965 @default.
W2113403249 cites W1973132690 @default.
W2113403249 cites W1973390721 @default.
W2113403249 cites W1974948294 @default.
W2113403249 cites W1974974541 @default.
W2113403249 cites W1977950540 @default.
W2113403249 cites W1979162682 @default.
W2113403249 cites W1980503858 @default.
W2113403249 cites W1981296117 @default.
W2113403249 cites W1982005351 @default.
W2113403249 cites W1982161534 @default.
W2113403249 cites W1984202089 @default.
W2113403249 cites W1988244638 @default.
W2113403249 cites W1990642244 @default.
W2113403249 cites W1993960494 @default.
W2113403249 cites W1994821826 @default.
W2113403249 cites W1996291528 @default.
W2113403249 cites W1996607822 @default.
W2113403249 cites W1998679598 @default.
W2113403249 cites W2001482784 @default.
W2113403249 cites W2012299555 @default.
W2113403249 cites W2013777623 @default.
W2113403249 cites W2014165099 @default.
W2113403249 cites W2016943360 @default.
W2113403249 cites W2018094686 @default.
W2113403249 cites W2019355431 @default.
W2113403249 cites W2023472827 @default.
W2113403249 cites W2024954708 @default.
W2113403249 cites W2025763043 @default.
W2113403249 cites W2032319176 @default.
W2113403249 cites W2033247038 @default.
W2113403249 cites W2034531272 @default.
W2113403249 cites W2036557922 @default.
W2113403249 cites W2037046192 @default.
W2113403249 cites W2038820394 @default.
W2113403249 cites W2040977131 @default.
W2113403249 cites W2044063887 @default.
W2113403249 cites W2045216822 @default.
W2113403249 cites W2047951832 @default.
W2113403249 cites W2056215645 @default.
W2113403249 cites W2056780588 @default.
W2113403249 cites W2058797945 @default.
W2113403249 cites W2063064919 @default.
W2113403249 cites W2063260861 @default.
W2113403249 cites W2069709862 @default.
W2113403249 cites W2071134066 @default.
W2113403249 cites W2071518930 @default.
W2113403249 cites W2075952648 @default.
W2113403249 cites W2076180081 @default.
W2113403249 cites W2084975965 @default.
W2113403249 cites W2089025238 @default.
W2113403249 cites W2089364192 @default.
W2113403249 cites W2093549529 @default.
W2113403249 cites W2096710259 @default.
W2113403249 cites W2100077118 @default.
W2113403249 cites W2103057235 @default.
W2113403249 cites W2116822575 @default.
W2113403249 cites W2119562458 @default.
W2113403249 cites W2122662899 @default.
W2113403249 cites W2123711607 @default.
W2113403249 cites W2127473954 @default.
W2113403249 cites W2129697311 @default.
W2113403249 cites W2130201546 @default.
W2113403249 cites W2139795313 @default.
W2113403249 cites W2143483942 @default.
W2113403249 cites W2144250791 @default.
W2113403249 cites W2148098128 @default.
W2113403249 cites W2153028269 @default.
W2113403249 cites W2153845184 @default.
W2113403249 cites W2156293579 @default.
W2113403249 cites W2157013193 @default.
W2113403249 cites W2165074826 @default.
W2113403249 cites W2168269250 @default.
W2113403249 cites W2169525077 @default.
W2113403249 cites W2170456537 @default.
W2113403249 cites W2619424955 @default.
W2113403249 cites W2950068812 @default.
W2113403249 cites W2952378333 @default.
W2113403249 doi "https://doi.org/10.1002/pola.23312" @default.
W2113403249 hasPublicationYear "2009" @default.
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