Optimized Broadband, Wide-Angle Distributed Bragg Reflectors for Photovoltaics

ORAL

Abstract

An important metric in increasing the efficiency of photovoltaic cells, and in particular intermediate band solar cells (IBSC), is the absorption efficiency in the active layer. Distributed Bragg reflectors (DBR) on one or both ends of the active layer are an attractive choice to recycle photons and increase absorption efficiency. However, traditional DBR's operate at single wavelength and incident angle. We apply optimization techniques for the inverse design of broadband and wide-angle DBR's operating at a desired spectral range, with thicknesses that vary with each layer. The optimization is applied to a type-II quantum dot IBSC, taking into consideration the strain for the choice of materials.

*This work was supported by the U.S. Air Force Office of Scientific Research (AFOSR) Young Investigator Program (YIP) [Grant No. FA9550-22-1-0189]; the CUNY Interdiscip. Res. Grant [Grant No. RF 80209-06 26]; and the NSF CREST Center [Grant No. HRD - 2112550].

Publication: Planned paper with tentative title "Optimized Broadband Bragg Reflector for Type II CdTe Quantum Dot Solar Cell"

Presenters

  • Matt Markowitz

    • Queens College

Authors

  • Matt Markowitz

    • Queens College

  • Aran Barton

    • Queens College

  • Milan Begliarbekov

    • Advanced Science Research Center

  • Maria Tamargo

    • The City College of New York
    • City College of New York

  • Mohammad-Ali Miri

    • City University of New York / Queens College
    • Queen's College

  • Igor Kuskovsky

    • Queens College