Photovoltaic Response in Conducting Polymer/Fullerene Self-Assembled Multilayers

Daniela Marciu; Michael B. Miller; Carrie Kozikowski; J. R. Heflin; Beth A. Reid; Kaori Kuroda; Sung Cho; Willi Graupner; Hong Wang; Harry W. Gibson; Richey M. Davis

doi:10.1364/OTF.2001.OMA3

Organic Thin Films
OSA Trends in Optics and Photonics (Optica Publishing Group, 2001),
paper OMA3
•https://doi.org/10.1364/OTF.2001.OMA3

Photovoltaic Response in Conducting Polymer/Fullerene Self-Assembled Multilayers

Daniela Marciu, Michael B. Miller, Carrie Kozikowski, J. R. Heflin, Beth A. Reid, Kaori Kuroda, Sung Cho, Willi Graupner, Hong Wang, Harry W. Gibson, and Richey M. Davis

Organic Thin Films 2001

Long Beach, California United States
ISBN: 1-55752-685-0

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Optoelectronic Devices: 1 (OMA)

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D. Marciu, M. B. Miller, C. Kozikowski, J. R. Heflin, B. A. Reid, K. Kuroda, S. Cho, W. Graupner, H. Wang, H. W. Gibson, and R. M. Davis, "Photovoltaic Response in Conducting Polymer/Fullerene Self-Assembled Multilayers," in Organic Thin Films , J. Armistead, J. Heflin, A. Jen, and R. Norwood, eds., Vol. 64 of OSA Trends in Optics and Photonics (Optica Publishing Group, 2001), paper OMA3.

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Abstract

We present results of a detailed study on thin film photovoltaic devices fabricated by the ionically self-assembled monolayer (ISAM) technique. The method allows for precise deposition of the electron accepting materials, such as copper phthalocyanine or fullerene derivatives within the polymer film. We demonstrate in this paper that it is possible to create ultrathin films (100 nm) of photovoltaic material that have enhanced efficiencies.

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