Incident Angle Dependence of Organic Solar Cells

POSTER

Abstract

We have recently been studying the use of interference effects to enhance optical absorption in polymer photovoltaic cells. These interference effects are expected to be angle dependent. We measure here the absorption incident angle dependence and compare it with numerical simulations. The cells used were P3HT/PCBM active layer, organic photovoltaic cells. The angular dependence of the cells' reflection was measured using an Ocean Optics light source and spectrophotometer and a precision rotary stage apparatus. The experimental results were compared to a Matlab simulation of the electrodynamic system. Analysis showed that the absorption peaks predicted by the simulation largely coincided in wavelength to those observed in experiment. Blueshift is minimal for most features of the absorption curves, however the absorption peak exhibited the largest shift, 40nm, due change in incidence angle. No additional cavity resonance can be attributed to incidence angle.

Authors

  • Vincent DeGeorge

    John Carroll University

  • Eric Baer

    Pennsylvania State University, Lincoln University, NHMFL, Brookhaven National Laboratory, University of Wisconsin Oshkosh, The University of Akron, Wayne State University, Physics Department, John Carroll University, Case Western Reserve University, Marietta College, SciPrint.org, High Performance Technologies, Inc., Air Force Institute of Technology, Johannes-Gutenberg-Universit\"at, Mainz, Germany, Martin-Luther-Universit\"at, Halle, Germany, Northwestern University, Youngstown State University, Dept. of Polymer Science, The University of Akron, X-ray Science Division, Argonne National Laboratory, NIST Center for Neutron Research, Electrical Engineering, Youngs. State U., Macromolecular, Case Western Reserve U.

  • Eric Baer

    Pennsylvania State University, Lincoln University, NHMFL, Brookhaven National Laboratory, University of Wisconsin Oshkosh, The University of Akron, Wayne State University, Physics Department, John Carroll University, Case Western Reserve University, Marietta College, SciPrint.org, High Performance Technologies, Inc., Air Force Institute of Technology, Johannes-Gutenberg-Universit\"at, Mainz, Germany, Martin-Luther-Universit\"at, Halle, Germany, Northwestern University, Youngstown State University, Dept. of Polymer Science, The University of Akron, X-ray Science Division, Argonne National Laboratory, NIST Center for Neutron Research, Electrical Engineering, Youngs. State U., Macromolecular, Case Western Reserve U.