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Enhancing Interlayer Charge Transport of Two-Dimensional Perovskites by Structural Stabilization via Fluorine Substitution

Elizabeth Stippell, Wei Li, Claudio Quarti, David Beljonne, Oleg V. Prezhdo

2024ACS Applied Materials & Interfaces13 citationsDOIOpen Access PDF

Abstract

Two-dimensional lead-halide perovskites provide a more robust alternative to three-dimensional perovskites in solar energy and optoelectronic applications due to increased chemical stability afforded by interlayer ligands. At the same time, the ligands create barriers for interlayer charge transport, reducing device performance. Using a recently developed ab initio simulation methodology, we demonstrate that ligand fluorination can enhance both hole and electron mobility by 1-2 orders of magnitude. The simulations show that the enhancement arises primarily from improved structural order and reduced thermal atomic fluctuations in the system rather than increased interlayer electronic coupling. Arising from stronger hydrogen bonding and dipolar interactions, the higher structural stability decreases the reorganization energy that enters the Marcus formula and increases the charge transfer rate. The detailed atomistic insights into the electron and hole transfer in layered perovskites indicate that the use of interlayer ligands that make the overall structure more robust is beneficial simultaneously for chemical stability and charge transport, providing an important guideline for the design of new, efficient materials.

Topics & Concepts

Materials scienceFluorineSubstitution (logic)Perovskite (structure)Charge (physics)Work (physics)NanotechnologyCrystallographyChemical engineeringMetallurgyThermodynamicsChemistryEngineeringQuantum mechanicsComputer scienceProgramming languagePhysicsPerovskite Materials and ApplicationsElectronic and Structural Properties of OxidesAdvanced Battery Materials and Technologies
Enhancing Interlayer Charge Transport of Two-Dimensional Perovskites by Structural Stabilization via Fluorine Substitution | Litcius