On the Equilibrium Electrostatic Potential and Light-Induced Charge Redistribution in Halide Perovskite Structures: Special Issue: EU PVSEC

Davide Regaldo, Aleksandra Bojar, Sean Dunfield, Pilar Lopez-Varo, Mathieu Fregnaux, Vincent Dufoulon, Shan-Ting Zhang, Jose Alvarez, Joseph Berry, Jean-Baptiste Puel, Philip Schulz, Jean-Paul Kleider

Research output: Contribution to journalArticlepeer-review

3 Scopus Citations

Abstract

Lead halide perovskites are semiconductor materials which are employed as nonintentionally doped absorbers inserted between two selective carrier transport layers (SCTL), realizing a p-i-n or n-i-p heterojunction. In our study, we have developed and investigated a lateral device, based on methylammonium lead iodide (MAPbI3) in which the p-i-n heterojunction develops in the horizontal direction. Our research suggests that the effective doping level in the MAPbI3 film should be very low, below 1012 cm−3. Along the vertical direction, this doping level is not enough to screen the electric field of the buried heterojunction with the SCTL. The perovskite work function is therefore affected by the work function of the SCTL underneath. From drift-diffusion simulations, we show that intrinsic perovskite-SCTL structures develop mV range surface photovoltages (SPVs) under continuous illumination. However, perovskite-SCTL structures can develop SPVs of hundreds of mV, as confirmed by our measurements. We therefore analyzed the compatibility between low doping and low defect densities in the perovskite layer and such high SPV values using numerical modeling. It is shown that these high SPV values could originate from electronic processes due to large band offsets in the buried perovskite-SCTL heterojunctions, or at the SCTL-transparent conductive oxide (TCO) buried heterojunction. However, such electronic processes can hardly explain the long SPV persistence after switching off the illumination.

Original languageAmerican English
Pages (from-to)994-1002
Number of pages9
JournalProgress in Photovoltaics: Research and Applications
Volume30
Issue number8
DOIs
StatePublished - 2022

Bibliographical note

Publisher Copyright:
© 2021 John Wiley & Sons, Ltd.

NREL Publication Number

  • NREL/JA-5F00-81842

Keywords

  • defects
  • drift-diffusion modeling
  • heterojunction
  • perovskite solar cell
  • photoemission spectroscopy
  • surface photovoltage

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