Ion Migration and Space‐Charge Zones in Metal Halide Perovskites Through Short‐Circuit Transient Current and Numerical Simulations

Alvarez, Agustin O.; García‐Batlle, Marisé; Lédée, Ferdinand; Gros‐Daillon, Eric; Guillén, Javier Mayén; Verilhac, Jean‐Marie; Lemercier, Thibault; Zaccaro, Julien; Marsal, Lluis F.; Almora, Osbel; Garcia‐Belmonte, Germà

doi:10.1002/aelm.202400241

Adv Elect Materials

2024

DOI: 10.1002/aelm.202400241

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Ion Migration and Space‐Charge Zones in Metal Halide Perovskites Through Short‐Circuit Transient Current and Numerical Simulations

Agustin O. Alvarez,

Marisé García‐Batlle,

Ferdinand Lédée

et al.

Abstract: The inherent ion migration in metal halide perovskite materials is known to induce deleterious and highly unstable dark currents in X‐ and γ‐ray detectors based on those compounds upon bias application. Dark current slow drift with time is identified as one of the major drawbacks for these devices to satisfy industrial requirements. Because dark current establishes the detectability limit, current evolution, and eventual growth may mask photocurrent signals produced by incoming X‐ray photons. Relevant informat… Show more

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Cited by 2 publications

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Consistent Interpretation of Time- and Frequency-Domain Traces of Ion Migration in Perovskite Semiconductors

Schmidt,

Alvarez,

de Boer

et al. 2024

ACS Energy Lett.

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The migration of mobile ions through the metal halide perovskite layer is still one of the main reasons for the poor stability of perovskite solar cells, LEDs, and photodetectors. To characterize mobile ions in the perovskite layer, time-and frequency-based electrical measurements are promising techniques. However, the presence of transport layers complicates their interpretation, limiting the information about mobile ions that can be extracted, and it is not clear how different features in frequency-and timedomain measurements relate to mobile ions. Here, we characterize a transportlayer-free device with capacitance frequency, capacitance transient, and current transient measurements in the dark, under illumination, and at different temperatures. We extract characteristic ionic signatures from the measurements, which we reproduce with drift-diffusion simulations for each technique. This allows us to explain the origins of the different ionic signatures, advancing our understanding of how electronic characterization techniques can be used to study the properties of mobile ions.

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Consistent Interpretation of Time- and Frequency-Domain Traces of Ion Migration in Perovskite Semiconductors

Schmidt,

Alvarez,

de Boer

et al. 2024

ACS Energy Lett.

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Impact of Mobile Ions and Performance in Perovskite Solar Cells: A Driftfusion Simulation Study

Zhang,

Yang,

Wang

et al. 2024

IEEE Electron Device Lett.

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Ion Migration and Space‐Charge Zones in Metal Halide Perovskites Through Short‐Circuit Transient Current and Numerical Simulations

Cited by 2 publications

References 35 publications

Consistent Interpretation of Time- and Frequency-Domain Traces of Ion Migration in Perovskite Semiconductors

Consistent Interpretation of Time- and Frequency-Domain Traces of Ion Migration in Perovskite Semiconductors

Impact of Mobile Ions and Performance in Perovskite Solar Cells: A Driftfusion Simulation Study

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