Organic small molecule solar cells with a homogeneously mixed copper phthalocyanine: C[sub 60] active layer

@article{citeulike:524718, abstract = {An efficient organic solar cell with a vacuum codeposited donor\&\#150;acceptor copper phthalocyanine (CuPc):C60 mixed layer is described. A device with a structure of indium tin oxide/330 \Å CuPc:C60(1:1)/100 \Å C60/75 \Å 2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline/Ag has a series resistance of only RS = 0.25\ \  cm2, resulting in a current density of \~{}1 A/cm2 at a forward bias of +1 V, and a rectification ratio of 106 at \&\#177;1 V. Under simulated solar illumination, the short circuit current density increases linearly with light intensity up to 2.4 suns. The maximum power conversion efficiency is P = (3.6\&\#177;0.2)\% at 0.3 suns (AM1.5G simulated solar spectrum) and P = (3.5\&\#177;0.2)\% at 1 sun. Although the fill factor decreases with increasing intensity, a power efficiency as high as P = (3.3\&\#177;0.2)\% is observed at 2.4 suns intensity. \©2004 American Institute of Physics.}, author = {Uchida, Soichi and Xue, Jiangeng and Rand, Barry P. and Forrest, Stephen R. }, citeulike-article-id = {524718}, comment = {pdf}, doi = {http://dx.doi.org/10.1063/1.1755833}, journal = {Applied Physics Letters}, keywords = {c60, organic, phthalocyanine, solarcell}, number = {21}, pages = {4218--4220}, posted-at = {2006-03-01 06:39:35}, priority = {2}, publisher = {AIP}, title = {Organic small molecule solar cells with a homogeneously mixed copper phthalocyanine: C[sub 60] active layer}, url = {http://dx.doi.org/10.1063/1.1755833}, volume = {84}, year = {2004} }

TY - JOUR ID - citeulike:524718 L3 - citeulike-article-id:524718 TI - Organic small molecule solar cells with a homogeneously mixed copper phthalocyanine: C[sub 60] active layer JF - Applied Physics Letters VL - 84 IS - 21 SP - 4218 EP - 4220 PB - AIP N2 - An efficient organic solar cell with a vacuum codeposited donor–acceptor copper phthalocyanine (CuPc):C60 mixed layer is described. A device with a structure of indium tin oxide/330 Å CuPc:C60(1:1)/100 Å C60/75 Å 2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline/Ag has a series resistance of only RS = 0.25   cm2, resulting in a current density of ~1 A/cm2 at a forward bias of +1 V, and a rectification ratio of 106 at ±1 V. Under simulated solar illumination, the short circuit current density increases linearly with light intensity up to 2.4 suns. The maximum power conversion efficiency is P = (3.6±0.2)% at 0.3 suns (AM1.5G simulated solar spectrum) and P = (3.5±0.2)% at 1 sun. Although the fill factor decreases with increasing intensity, a power efficiency as high as P = (3.3±0.2)% is observed at 2.4 suns intensity. ©2004 American Institute of Physics. KW - c60 KW - organic KW - phthalocyanine KW - solarcell N1 - pdf AU - Uchida, Soichi AU - Xue, Jiangeng AU - Rand, Barry AU - Forrest, Stephen PY - 2004/// UR - http://dx.doi.org/10.1063/1.1755833 ER -