Copper oxide (CuO) is a p-type semiconductor having a band gap energy of 1.5 eV, which is close to the ideal energy gap of 1.4 eV required for solar cells to allow good solar spectral absorption. The inherent electrical characteristics of CuO nanoparticles make them attractive candidates for improving the performance of polymer solar cells (PSCs) when incorporated in the active polymer layer. The incorporation of CuO nanoparticles in P3HT/PC70BM solar cells at the optimum concentration yields 40.7% improvement in power conversion efficiency (PCE). The CuO nanoparticles in the size range of 100–150 nm have an effective average band gap of 2.07 eV. In addition, the X-ray diffraction (XRD) and differential scanning calorimetry (DSC) analyses show improvement in P3HT crystallinity, and surface analysis by atomic force microscope (AFM) shows an increase in surface roughness of the PSCs. The key factors namely photo-absorption, exciton diffusion, dissociation, charge transport, and charge collection inside the PSCs which affect the external quantum efficiency (EQE) and PCE of these cells are analyzed.
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June 2015
Research-Article
CuO Nanoparticles Based Bulk Heterojunction Solar Cells: Investigations on Morphology and Performance
Aruna P. Wanninayake,
Aruna P. Wanninayake
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: wannina2@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: wannina2@uwm.edu
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Subhashini Gunashekar,
Subhashini Gunashekar
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: gunashe2@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: gunashe2@uwm.edu
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Shengyi Li,
Shengyi Li
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: shengyi@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: shengyi@uwm.edu
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Benjamin C. Church,
Benjamin C. Church
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: church@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: church@uwm.edu
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Nidal Abu-Zahra
Nidal Abu-Zahra
1
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: nidal@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: nidal@uwm.edu
1Corresponding author.
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Aruna P. Wanninayake
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: wannina2@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: wannina2@uwm.edu
Subhashini Gunashekar
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: gunashe2@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: gunashe2@uwm.edu
Shengyi Li
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: shengyi@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: shengyi@uwm.edu
Benjamin C. Church
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: church@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: church@uwm.edu
Nidal Abu-Zahra
Materials Science and Engineering Department,
3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: nidal@uwm.edu
University of Wisconsin-Milwaukee
,3200 North Cramer Street,
Milwaukee, WI 53201
e-mail: nidal@uwm.edu
1Corresponding author.
Contributed by the Solar Energy Division of ASME for publication in the JOURNAL OF SOLAR ENERGY ENGINEERING: INCLUDING WIND ENERGY AND BUILDING ENERGY CONSERVATION. Manuscript received October 10, 2014; final manuscript received December 20, 2014; published online January 27, 2015. Assoc. Editor: Santiago Silvestre.
J. Sol. Energy Eng. Jun 2015, 137(3): 031016 (7 pages)
Published Online: June 1, 2015
Article history
Received:
October 10, 2014
Revision Received:
December 20, 2014
Online:
January 27, 2015
Citation
Wanninayake, A. P., Gunashekar, S., Li, S., Church, B. C., and Abu-Zahra, N. (June 1, 2015). "CuO Nanoparticles Based Bulk Heterojunction Solar Cells: Investigations on Morphology and Performance." ASME. J. Sol. Energy Eng. June 2015; 137(3): 031016. https://doi.org/10.1115/1.4029542
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