3D Perovskite Passivation with a Benzotriazole-Based 2D Interlayer for High-Efficiency Solar Cells

Overview

Journal ACS Appl Energy Mater

Publisher American Chemical Society

Date 2023 Apr 17

PMID 37064411

Authors

Alessandro Caiazzo

Arthur Maufort

Bas T van Gorkom

Willemijn H M Remmerswaal

Jordi Ferrer Orri

Junyu Li

Junke Wang

Wouter T M Van Gompel

Kristof Van Hecke

Gunnar Kusch

R A Oliver

Caterina Ducati

Laurence Lutsen

Martijn M Wienk

Samuel D Stranks

Dirk Vanderzande

Rene A J Janssen

Affiliations

Soon will be listed here.

Abstract

2H-Benzotriazol-2-ylethylammonium bromide and iodide and its difluorinated derivatives are synthesized and employed as interlayers for passivation of formamidinium lead triiodide (FAPbI) solar cells. In combination with PbI and PbBr, these benzotriazole derivatives form two-dimensional (2D) Ruddlesden-Popper perovskites (RPPs) as evidenced by their crystal structures and thin film characteristics. When used to passivate n-i-p FAPbI solar cells, the power conversion efficiency improves from 20% to close to 22% by enhancing the open-circuit voltage. Quasi-Fermi level splitting experiments and scanning electron microscopy cathodoluminescence hyperspectral imaging reveal that passivation provides a reduced nonradiative recombination at the interface between the perovskite and hole transport layer. Photoluminescence spectroscopy, angle-resolved grazing-incidence wide-angle X-ray scattering, and depth profiling X-ray photoelectron spectroscopy studies of the 2D/three-dimensional (3D) interface between the benzotriazole RPP and FAPbI show that a nonuniform layer of 2D perovskites is enough to passivate defects, enhance charge extraction, and decrease nonradiative recombination.

Citing Articles

Structural rigidity, thermochromism and piezochromism of layered hybrid perovskites containing an interdigitated organic bilayer.

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Elucidating the Non-Covalent Interactions that Trigger Interdigitation in Lead-Halide Layered Hybrid Perovskites.

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