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Organic photovoltaic devices with a 30% improvement in power conversion efficiency are achieved when gold nanorods (Au NR) are incorporated into the active bulk heterojunction (BHJ) layer. Detailed analysis of the system is provided through microscopy, device characterization, and spectroscopy, demonstrating that the enhancement effects are predominantly caused by induced morphology changes in the BHJ film rather than plasmonic effects. Wide angle X-ray diffraction provides evidence that the nanorods loaded into the BHJ film have an effect on polymer crystal orientation, leading to a systematic performance increase in the devices as a result of both internal and external efficiency improvements.

Gold Nanorod Enhanced Organic Photovoltaics: The Importance of Morphology Effects / Wadams, R C; Yen, C; Butcher Jr, D P; Koerner, H; Durstock, M F; Fabris, L; Tabor, C E. - In: ORGANIC ELECTRONICS. - ISSN 1566-1199. - 15:7(2014), pp. 1448-1457. [10.1016/j.orgel.2014.03.039]

Gold Nanorod Enhanced Organic Photovoltaics: The Importance of Morphology Effects

Fabris L;
2014

Abstract

Organic photovoltaic devices with a 30% improvement in power conversion efficiency are achieved when gold nanorods (Au NR) are incorporated into the active bulk heterojunction (BHJ) layer. Detailed analysis of the system is provided through microscopy, device characterization, and spectroscopy, demonstrating that the enhancement effects are predominantly caused by induced morphology changes in the BHJ film rather than plasmonic effects. Wide angle X-ray diffraction provides evidence that the nanorods loaded into the BHJ film have an effect on polymer crystal orientation, leading to a systematic performance increase in the devices as a result of both internal and external efficiency improvements.
2014
ORGANIC ELECTRONICS
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2983257