MXenes are a recent family of 2D materials with very interesting electronic properties for device applications. One very appealing feature is the wide range of work functions shown by these materials, depending on their composition and surface terminations, that can be exploited to adjust band alignments between different material layers. In this work, based on density functional theory calculations, how mixed terminations of F, OH, and/or O affect the work function of TiC MXene is analyzed in detail, covering the whole phase-space of mixtures. The TiC/CHNHPbI (MAPbI) perovskite coupled system for solar cell applications is also analyzed. A strong nonlinear behavior is found when varying the relative concentrations of OH, O, and F terminations, with the strongest effect of the OH groups in lowering the work function, already at a relative amount of 25%. A surprising minimum work function is found for relative OH:O fraction of 75:25, explained in terms of the nonlinear electronic response in screening the surface dipoles.
Nonlinear Work Function Tuning of Lead-Halide Perovskites by MXenes with Mixed Terminations
Pecchia Alessandro
Writing – Original Draft Preparation
;Di Carlo Aldo
Writing – Review & Editing
2020
Abstract
MXenes are a recent family of 2D materials with very interesting electronic properties for device applications. One very appealing feature is the wide range of work functions shown by these materials, depending on their composition and surface terminations, that can be exploited to adjust band alignments between different material layers. In this work, based on density functional theory calculations, how mixed terminations of F, OH, and/or O affect the work function of TiC MXene is analyzed in detail, covering the whole phase-space of mixtures. The TiC/CHNHPbI (MAPbI) perovskite coupled system for solar cell applications is also analyzed. A strong nonlinear behavior is found when varying the relative concentrations of OH, O, and F terminations, with the strongest effect of the OH groups in lowering the work function, already at a relative amount of 25%. A surprising minimum work function is found for relative OH:O fraction of 75:25, explained in terms of the nonlinear electronic response in screening the surface dipoles.File | Dimensione | Formato | |
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Nonlinear Work Function Tuning of Lead‐Halide Perovskites by MXenes with Mixed Terminations.pdf
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