Surface-relief diffraction gratings' optimization for plasmonic enhancements in thin-film solar cells

Authors

  • Justin Jefferies,

    1. Department of Physics, Royal Military College of Canada, Kingston, ON, Canada
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  • Ribal Georges Sabat

    Corresponding author
    1. Department of Physics, Royal Military College of Canada, Kingston, ON, Canada
    • Correspondence: Ribal Georges Sabat, Department of Physics, Royal Military College of Canada, PO Box 17000, STN Forces, Kingston, ON, Canada K7K7B4.

      E-mail: sabat@rmc.ca

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ABSTRACT

Methodical and intensive surface plasmon (SP) excitation trials were carried out on various dielectric-metal interfaces to optimize plasmonic photocurrent enhancements in organic P3HT-PCBM photovoltaic thin films. The SPs were optically excited via the diffraction grating method using single, crossed, and parallel grating schemes, with trials yielding optimal grating and film thickness parameters. Photocurrent enhancements up to 355% were demonstrated with TM-polarized incident light on single and parallel grating structures, while both TM and TE-polarized incident light enhancements were present on crossed grating structures. When compared with the photocurrent enhancements seen on single gratings, those seen on parallel gratings were comparable in magnitude but were shown over a broader optical band. This broadening of the optical band was due to the simultaneous SP excitations by the two superimposed gratings in the parallel scheme. Copyright © 2012 John Wiley & Sons, Ltd.

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