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Broad Tunability of Carrier Effective Masses in Two-Dimensional Halide Perovskites

Mateusz Dyksik, Herman Duim, Xiangzhou Zhu, Zhuo Yang, Masaki Gen, Yoshimitsu Kohama, Sampson Adjokatse, D. K. Maude, Maria Antonietta Loi, David A. Egger, Michał Baranowski, Paulina Płochocka

2020ACS Energy Letters96 citationsDOIOpen Access PDF

Abstract

The effective mass of charge carriers is a crucial parameter for the design of any optoelectronic device. The estimated values of the effective mass of 2D halide perovskites currently span a broad range, providing an unwelcome source of confusion in this promising material system. Here we highlight how the distortion imposed by the organic spacers, and orbital hybridization effects by the metal cation, govern the effective mass. As a result, the effective mass in 2D halide perovskites can be easily tailored over a wide range. To demonstrate this, we have directly measured the reduced effective mass of charge carriers in phenethylamine (PEA)-based 2D halide perovskites. Combining the experimental results with electronic band-structure calculations, we propose a scaling diagram for the effective mass value versus the distortion of the octahedra imposed by the organic cations.

Topics & Concepts

HalideEffective mass (spring–mass system)Charge carrierDistortion (music)ChemistryChemical physicsMaterials scienceOptoelectronicsNanotechnologyInorganic chemistryPhysicsCMOSQuantum mechanicsAmplifierPerovskite Materials and Applications2D Materials and ApplicationsConducting polymers and applications
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