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Structural and electronic features enabling delocalized charge-carriers in CuSbSe2

Yuchen Fu, Hugh Lohan, Marcello Righetto, Yi‐Teng Huang, Seán R. Kavanagh, Chang-Woo Cho, Szymon J. Zelewski, Young Won Woo, Harry Demetriou, Martyn A. McLachlan, Sandrine Heutz, B. A. Piot, David O. Scanlon, Akshay Rao, Laura M. Herz, Aron Walsh, Robert L. Z. Hoye

2025Nature Communications14 citationsDOIOpen Access PDF

Abstract

Abstract Inorganic semiconductors based on heavy pnictogen cations (Sb 3+ and Bi 3+ ) have gained significant attention as potential nontoxic and stable alternatives to lead-halide perovskites for solar cell applications. A limitation of these novel materials, which is being increasingly commonly found, is carrier localization, which substantially reduces mobilities and diffusion lengths. Herein, CuSbSe 2 is investigated and discovered to have delocalized free carriers, as shown through optical pump terahertz probe spectroscopy and temperature-dependent mobility measurements. Using a combination of theory and experiment, the critical enabling factors are found to be: 1) having a layered structure, which allows distortions to the unit cell during the propagation of an acoustic wave to be relaxed in the interlayer gaps, with minimal changes in bond length, thus limiting deformation potentials; 2) favourable quasi-bonding interactions across the interlayer gap giving rise to higher electronic dimensionality; 3) Born effective charges not being anomalously high, which, combined with the small bandgap ( $$\le$$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mo>≤</mml:mo> </mml:math> 1.2 eV), result in a low ionic contribution to the dielectric constant compared to the electronic contribution, thus reducing the strength of Fröhlich coupling. These insights can drive forward the rational discovery of perovskite-inspired materials that can avoid carrier localization.

Topics & Concepts

Delocalized electronBand gapCharge carrierMaterials scienceDielectricChemical physicsSemiconductorPerovskite (structure)Ionic bondingElectronic structureCondensed matter physicsElectron mobilityOptoelectronicsChemistryCrystallographyIonPhysicsQuantum mechanicsPerovskite Materials and ApplicationsChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And Properties
Structural and electronic features enabling delocalized charge-carriers in CuSbSe2 | Litcius