Coupling between Ion Drift and Kinetics of Electronic Current Transients in MAPbBr<sub>3</sub> Single Crystals

García-Batlle, Marisé; Guillén, Javier Mayén; Chapran, Marian; Baussens, Oriane; Zaccaro, Julien; Verilhac, Jean‐Marie; Gros-Daillon, Eric; Guerrero, Antonio; Almora, Osbel; García-Belmonte, Germà

doi:10.1021/acsenergylett.1c02578

Cited by 25 publications

(49 citation statements)

References 39 publications

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“…To elucidate the origin of those currents measured by dielectric displacement at

C_{0}

, we explore electronic currents plotted in Figure 2b, in which the long‐term current response upon the direct application of voltage steps to the sample in dark conditions is shown. The general protocol of measurement in Figure 2b is based on previous reports [ 10 ] : first the crystals are polarized for 3 h and then left to relax at 0 V for 2 h. As recently reported, direct currents originate from a drift of electronic species kinetically controlled by migrating ions. [ 10 ] However, a significant difference appears in comparison to the charging method: currents are no longer constant but increase with time.…”

Section: Resultsmentioning

confidence: 99%

“…The general protocol of measurement in Figure 2b is based on previous reports [ 10 ] : first the crystals are polarized for 3 h and then left to relax at 0 V for 2 h. As recently reported, direct currents originate from a drift of electronic species kinetically controlled by migrating ions. [ 10 ] However, a significant difference appears in comparison to the charging method: currents are no longer constant but increase with time. For times of ≈2000 s and 1 V bias, electronic dark current achieves values approximately equal to 10 nA, much greater than that registered through

C_{0}

.…”

Section: Resultsmentioning

confidence: 99%

“…The ohmic character (slope ≈1) observed in the i–V curve is remarkable and agrees with some previous studies of symmetrical SCs perovskite‐based devices, [ 9,11,36,37 ] but not necessarily true for longer times. [ 10 ] Note that the typical measuring time of the i–V curve situates at ≈100 s. Figure 1a shows the configuration of the setup circuit for the measurement of charge at the reference capacitor. Here, a step voltage pulse (

V_{app}

) is applied to the sample

Z_{x}

(which is modeled by a parallel combination of

C_{x}

and

R_{x}

) across a linear reference capacitor

C_{0}

, with both elements in series connection.…”

Section: Resultsmentioning

confidence: 99%

“…This modulates the net built-in electric field, changing the injection barriers for electronic carriers. [10,11] The presence of moving ions modifies the current-voltage curves in perovskite solar cells, in addition to electronic mechanisms. [12][13][14] In particular, slow redistribution of ions are responsible for the hysteretic behavior.…”

mentioning

confidence: 99%

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Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

et al. 2022

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Long life of perovskite devices in working conditions remains the bottleneck for technology application. Stable charge carriers’ transport together with nonreactive contact materials contributes to the increase of the device operation time. Still, an appropriate model for transport carrier mechanisms is needed because of the complex ionic–electronic interplay. Herein, methylammonium lead bromide perovskite single crystals are used to analyze the current flowing across the perovskite sample after biasing. Two methods are performed: 1) direct measurement using an amperemeter and 2) indirect method by means of an induced potential in a reference capacitor. Because of the continuity of the current, the latest method measures direct current through the sample by monitoring displacements currents. Intriguing features are observed: the displacement currents result in stable and highly reproducible responses for long‐term biasing (≈2000 s), while the direct measurements produce larger and exponentially increasing current dependence on time. These findings highlight the nontrivial effect of contacting and measuring procedures in exploring thick perovskite electrical response.

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“…To elucidate the origin of those currents measured by dielectric displacement at

C_{0}

Section: Resultsmentioning

confidence: 99%

C_{0}

.…”

Section: Resultsmentioning

confidence: 99%

V_{app}

) is applied to the sample

Z_{x}

(which is modeled by a parallel combination of

C_{x}

and

R_{x}

) across a linear reference capacitor

C_{0}

, with both elements in series connection.…”

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

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Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

et al. 2022

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“… 21 Recently, the BVM model has been found to describe the long-term kinetics of electronic transient currents in MAPbBr 3 single crystals. 27 …”

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confidence: 99%

Surface versus Bulk Currents and Ionic Space-Charge Effects in CsPbBr₃ Single Crystals

Almora

Matt

These

et al. 2022

J. Phys. Chem. Lett.

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CsPbBr 3 single crystals have potential for application in ionizing-radiation detection devices due to their optimal optoelectronic properties. Yet, their mixed ionic–electronic conductivity produces instability and hysteretic artifacts hindering the long-term device operation. Herein, we report an electrical characterization of CsPbBr 3 single crystals operating up to the time scale of hours. Our fast time-of-flight measurements reveal bulk mobilities of 13–26 cm 2 V –1 s –1 with a negative voltage bias dependency. By means of a guard ring (GR) configuration, we separate bulk and surface mobilities showing significant qualitative and quantitative transport differences. Our experiments of current transients and impedance spectroscopy indicate the formation of several regimes of space-charge-limited current (SCLC) associated with mechanisms similar to the Poole–Frenkel ionized-trap-assisted transport. We show that the ionic-SCLC seems to be an operational mode in this lead halide perovskite, despite the fact that experiments can be designed where the contribution of mobile ions to transport is negligible.

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Effective Ion Mobility and Long‐Term Dark Current of Metal Halide Perovskites with Different Crystallinities and Compositions

García-Batlle

Deumel

Huerdler

et al. 2022

Advanced Photonics Research

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Perovskites have been explored in almost all fields of material science. [1,2] Considerable efforts have been made on examining the causes of hysteresis in the current-voltage curves, [3][4][5] the nature of charge traps, defects, [6,7] grain boundaries, [8] origins of ion migration, [9][10][11] not only in the field of solar cells and light emitters devices, [12] but also as key materials in fuel cells [13] and electrodes for water electrolyzers. [14] By tailoring the composition of the perovskite compounds, a variety of physical properties appears, such as ferroelectric, [15] dielectric, piezoelectric, magnetic, [16] catalytic, [17] photovoltaic, electronic-ionic-conduction, [18] and superconducting properties. [19] Recently, metal halide perovskite (HP) materials have been successfully used in X-ray imaging and ionizing radiation detectors. [20,21] The chemical formula APbX 3 (where A is a cation and X is the halide anion) comprises reasonably high Z elements, which are helpful to stop high-energy radiation photons. HPs exhibit the so-called defect tolerance which is connected to the transport properties allowing to maximize the product of the charge mobility and carrier lifetime by minimizing the bulk/surface defect density. [22][23][24] Furthermore, direct semiconductor radiation detectors based on Pb-HPs can be grown and processed in solution at relatively low temperatures and from low-cost basic raw materials. [25,26] Fast and efficient detection of hard X-and γ-ray with high energy resolution is critical for medical and industrial applications. [27] The direct conversion X-ray detectors transform the incident X-ray photons directly into electrical signals, and present an advantage in terms of high spatial resolution in comparison to indirect detectors such as CsI. [28] Besides optimization in material composition and device architecture, the conventional direct detectors, such as amorphous selenium (α-Se), [29] suffer from their low mobility-lifetime (μτ) product and small atomic number which limit their sensitivity. [24,30] In contrast, HPs exhibit large μτ-product and strong stopping power. However, the persistent drawback of ion migration results in deleterious and unstable dark current. [31][32][33] In fact, induced dark current and also

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Coupling between Ion Drift and Kinetics of Electronic Current Transients in MAPbBr₃ Single Crystals

Cited by 25 publications

References 39 publications

Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

Surface versus Bulk Currents and Ionic Space-Charge Effects in CsPbBr₃ Single Crystals

Effective Ion Mobility and Long‐Term Dark Current of Metal Halide Perovskites with Different Crystallinities and Compositions

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Coupling between Ion Drift and Kinetics of Electronic Current Transients in MAPbBr3 Single Crystals

Cited by 25 publications

References 39 publications

Observation of Long‐Term Stable Response in MAPbBr3 Single Crystals Monitored through Displacement Currents under Varying Illumination

Observation of Long‐Term Stable Response in MAPbBr3 Single Crystals Monitored through Displacement Currents under Varying Illumination

Surface versus Bulk Currents and Ionic Space-Charge Effects in CsPbBr3 Single Crystals

Effective Ion Mobility and Long‐Term Dark Current of Metal Halide Perovskites with Different Crystallinities and Compositions

Contact Info

Product

Resources

About

Coupling between Ion Drift and Kinetics of Electronic Current Transients in MAPbBr₃ Single Crystals

Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

Observation of Long‐Term Stable Response in MAPbBr₃ Single Crystals Monitored through Displacement Currents under Varying Illumination

Surface versus Bulk Currents and Ionic Space-Charge Effects in CsPbBr₃ Single Crystals