Effects of the position of silver nanoprisms on the performance of organic solar cells

Silver nanoprisms （AgNPs） affect the performance of organic solar cells （OSCs） in different ways depending on their positions in the device. To investigate this issue, we incorporate AgNPs in different positions of OSCs and compare their performance. The power conversion efficiency （PCE） is improved...

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Published in	Optoelectronics letters Vol. 10; no. 4; pp. 253 - 257
Main Author	张强秦文静曹焕奇杨利营张凤玲印寿根
Format	Journal Article
Language	English
Published	Heidelberg Tianjin University of Technology 01.07.2014
Subjects	AGNPS Lasers Optical Devices Optics Photonics Physics Physics and Astronomy 功率转换效率最佳位置有机太阳能电池有源层电池性能短路电流密度银 Control Device Power Conversion Efficiency Active Layer Organic Solar Cell Layer Number
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ISSN	1673-1905 1993-5013
DOI	10.1007/s11801-014-4041-7

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Abstract	Silver nanoprisms （AgNPs） affect the performance of organic solar cells （OSCs） in different ways depending on their positions in the device. To investigate this issue, we incorporate AgNPs in different positions of OSCs and compare their performance. The power conversion efficiency （PCE） is improved by 23.60% to 3.98% when the AgNPs are in- corporated in front of the active layer. On the other hand, when AgNPs are incorporated in the back of the active layer, the short-circuit current density （Jsc） is improved by 17.44% to 10.84 mA/cm2. However, if AgNPs are incorporated in the active layer, both open-circuit voltage （Voc） and Jsc are decreased. We discuss the position effect on the device performance, clarify the absorption shadow and exciton recombination caused by AgNPs, and finally indicate that the optimal position ofplasmonic AgNPs is in front of the active layer.
AbstractList	Silver nanoprisms （AgNPs） affect the performance of organic solar cells （OSCs） in different ways depending on their positions in the device. To investigate this issue, we incorporate AgNPs in different positions of OSCs and compare their performance. The power conversion efficiency （PCE） is improved by 23.60% to 3.98% when the AgNPs are in- corporated in front of the active layer. On the other hand, when AgNPs are incorporated in the back of the active layer, the short-circuit current density （Jsc） is improved by 17.44% to 10.84 mA/cm2. However, if AgNPs are incorporated in the active layer, both open-circuit voltage （Voc） and Jsc are decreased. We discuss the position effect on the device performance, clarify the absorption shadow and exciton recombination caused by AgNPs, and finally indicate that the optimal position ofplasmonic AgNPs is in front of the active layer. Silver nanoprisms (AgNPs) affect the performance of organic solar cells (OSCs) in different ways depending on their positions in the device. To investigate this issue, we incorporate AgNPs in different positions of OSCs and compare their performance. The power conversion efficiency (PCE) is improved by 23.60% to 3.98% when the AgNPs are incorporated in front of the active layer. On the other hand, when AgNPs are incorporated in the back of the active layer, the short-circuit current density ( J SC ) is improved by 17.44% to 10.84 mA/cm 2 . However, if AgNPs are incorporated in the active layer, both open-circuit voltage ( V OC ) and J SC are decreased. We discuss the position effect on the device performance, clarify the absorption shadow and exciton recombination caused by AgNPs, and finally indicate that the optimal position of plasmonic AgNPs is in front of the active layer.
Author	张强秦文静曹焕奇杨利营张凤玲印寿根
AuthorAffiliation	Key Laboratory of Display Material and Photoelectric Devices, Ministry of Education of China, Tianjin University of Technology, Tianjin 300384, China Key Laboratory of Display Material and Photoelectric Devices of the City of Tianjin, Tianjin University of Technology, Tianjin 300384, China Biomolecular and Organic Electronics, Center of Organic Electronics, Department of Physics, Chemistry and Biology （IFM）, Linkoping University, Linkoping SE-581 83, Sweden
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Notes	Silver nanoprisms （AgNPs） affect the performance of organic solar cells （OSCs） in different ways depending on their positions in the device. To investigate this issue, we incorporate AgNPs in different positions of OSCs and compare their performance. The power conversion efficiency （PCE） is improved by 23.60% to 3.98% when the AgNPs are in- corporated in front of the active layer. On the other hand, when AgNPs are incorporated in the back of the active layer, the short-circuit current density （Jsc） is improved by 17.44% to 10.84 mA/cm2. However, if AgNPs are incorporated in the active layer, both open-circuit voltage （Voc） and Jsc are decreased. We discuss the position effect on the device performance, clarify the absorption shadow and exciton recombination caused by AgNPs, and finally indicate that the optimal position ofplasmonic AgNPs is in front of the active layer. 12-1370/TN
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Snippet	Silver nanoprisms （AgNPs） affect the performance of organic solar cells （OSCs） in different ways depending on their positions in the device. To investigate... Silver nanoprisms (AgNPs) affect the performance of organic solar cells (OSCs) in different ways depending on their positions in the device. To investigate...
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Title	Effects of the position of silver nanoprisms on the performance of organic solar cells
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