International Journal of Photoenergy (Jan 2018)

Physics-Based Modeling and Experimental Study of Si-Doped InAs/GaAs Quantum Dot Solar Cells

  • A. P. Cédola,
  • D. Kim,
  • A. Tibaldi,
  • M. Tang,
  • A. Khalili,
  • J. Wu,
  • H. Liu,
  • F. Cappelluti

DOI
https://doi.org/10.1155/2018/7215843
Journal volume & issue
Vol. 2018

Abstract

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This paper presents an experimental and theoretical study on the impact of doping and recombination mechanisms on quantum dot solar cells based on the InAs/GaAs system. Numerical simulations are built on a hybrid approach that includes the quantum features of the charge transfer processes between the nanostructured material and the bulk host material in a classical transport model of the macroscopic continuum. This allows gaining a detailed understanding of the several physical mechanisms affecting the photovoltaic conversion efficiency and provides a quantitatively accurate picture of real devices at a reasonable computational cost. Experimental results demonstrate that QD doping provides a remarkable increase of the solar cell open-circuit voltage, which is explained by the numerical simulations as the result of reduced recombination loss through quantum dots and defects.