Nature Communications (Feb 2024)

Effect of sub-bandgap defects on radiative and non-radiative open-circuit voltage losses in perovskite solar cells

  • Guus J. W. Aalbers,
  • Tom P. A. van der Pol,
  • Kunal Datta,
  • Willemijn H. M. Remmerswaal,
  • Martijn M. Wienk,
  • René A. J. Janssen

DOI
https://doi.org/10.1038/s41467-024-45512-8
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract The efficiency of perovskite solar cells is affected by open-circuit voltage losses due to radiative and non-radiative charge recombination. When estimated using sensitive photocurrent measurements that cover the above- and sub-bandgap regions, the radiative open-circuit voltage is often unphysically low. Here we report sensitive photocurrent and electroluminescence spectroscopy to probe radiative recombination at sub-bandgap defects in wide-bandgap mixed-halide lead perovskite solar cells. The radiative ideality factor associated with the optical transitions increases from 1, above and near the bandgap edge, to ~2 at mid-bandgap. Such photon energy-dependent ideality factor corresponds to a many-diode model. The radiative open-circuit voltage limit derived from this many-diode model enables differentiating between radiative and non-radiative voltage losses. The latter are deconvoluted into contributions from the bulk and interfaces via determining the quasi-Fermi level splitting. The experiments show that while sub-bandgap defects do not contribute to radiative voltage loss, they do affect non-radiative voltage losses.