Potential and limitations of CsBi₃I₁₀ as a photovoltaic material

Sebastia-Luna, Paz; Gélvez-Rueda, María C.; Dreessen, Chris; Sessolo, Michele; Grozema, Ferdinand C.; Palazon, Francisco; Bolink, Henk J.

Potential and limitations of CsBi₃I₁₀ as a photovoltaic material

2020

Herein we demonstrate the dry synthesis of CsBi₃I₁₀ both as a free-standing material and in the form of homogeneous thin films, deposited by thermal vacuum deposition. Chemical and optical characterization shows high thermal stability, phase purity, and photoluminescence centered at 700 nm, corresponding to a bandgap of 1.77 eV. These characteristics make CsBi₃I₁₀ a promising low-toxicity material for wide bandgap photovoltaics. Nevertheless, the performance of this material as a semiconductor in solar cells remains rather limited, which can be at least partially ascribed to a low charge carrier mobility, as determined from pulsed-radiolysis time-resolved microwave conductivity. Further developments should focus on understanding and overcoming the current limitations in charge mobility, possibly by compositional tuning through doping and/or alloying, as well as optimizing the thin film morphology which may be another limiting factor.

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