Time Transients with Inductive Loop Traces in Metal Halide Perovskites

Resumen

Metal halide perovskites are archetypal ionic-electronic materials with great prospects for optoelectronic applications. Among the rich variety of physics exhibited by ionic-electronic conduction, here, those most relevant to optoelectronic devices in which ionic mechanisms introduce a kinetic delay in the electronic phenomena are analyzed. The attention is focused on the inductive loop features and a dynamical model is developed to describe the corresponding complex multiscale dynamics in the time domain under experimental conditions, finally explaining the fundamental structure of the current transient responses in halide perovskite semiconductors. Based on complex capacitive and inductive patterns extensively studied in impedance measurements, an adequate interpretation of time domain methods capable of monitoring charge-carrier dynamics is produced. Therefore, this methodology identifies the characteristic parameters of all types of transient dynamics in metal halide perovskites, providing a suitable connection of correlated techniques, including impedance and chronoamperometric experiments, toward a robust interpretation of the device response. The scope of the method is fairly general, since these counterintuitive transient effects are observable not only in metal halide perovskites, but also in multiple materials and processes, mainly in different research fields pertaining to electrochemistry and electronics.

Descripción

This work has received funding from the Universidad Rey Juan Carlos, project number M2993. This work was also supported with funding from the European Research Council via the Advanced Grant 101097688 (PeroSpiker).

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Citación

E. Hernández-Balaguera, J. Bisquert, Time Transients with Inductive Loop Traces in Metal Halide Perovskites. Adv. Funct. Mater. 2024, 34, 2308678. https://doi.org/10.1002/adfm.202308678
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