Ion migration controlled stability in α particle response of cspbbr2.4cl0.6 detectors

Bin Bin Zhang; Fangbao Wang; Xin Liu; Bao Xiao; Meng Xu; Song Tao Dong; Yadong Xu; Paul Sellin; Wanqi Jie

doi:10.1021/acs.jpcc.0c10758

Ion migration controlled stability in α particle response of cspbbr2.4cl0.6 detectors

Bin Bin Zhang, Fangbao Wang, Xin Liu, Bao Xiao, Meng Xu, Song Tao Dong, Yadong Xu, Paul Sellin, Wanqi Jie

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Halide perovskites have been considered as nuclear radiation detection materials due to their high mobility, long carrier lifetime, and high absorption coefficient. However, it has been reported that the ion migration increases the dark current of halide perovskite detectors and hinders the stable response to high energy photons or particles. In this work, we report the utilization of the "voltage cycling" technique to obtain the stable α-particle spectra in a CsPbBr2.4Cl0.6 device. Also, by measuring the timedependent stability and the effect of electric field strength, we can gain insight into the phenomona causing instability in these devices. Accordingly, the influence of ion migration on the charge transport properties and energy spectra in CsPbBr2.4Cl0.6 detectors was also revealed. Our investigation demonstrates the strong correlation between ion migration processes and stable energy spectra in halide perovskite materials.

Original language	English
Pages (from-to)	4235-4242
Number of pages	8
Journal	Journal of Physical Chemistry C
Volume	125
Issue number	7
DOIs	https://doi.org/10.1021/acs.jpcc.0c10758
State	Published - 25 Feb 2021

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abstract = "Halide perovskites have been considered as nuclear radiation detection materials due to their high mobility, long carrier lifetime, and high absorption coefficient. However, it has been reported that the ion migration increases the dark current of halide perovskite detectors and hinders the stable response to high energy photons or particles. In this work, we report the utilization of the {"}voltage cycling{"} technique to obtain the stable α-particle spectra in a CsPbBr2.4Cl0.6 device. Also, by measuring the timedependent stability and the effect of electric field strength, we can gain insight into the phenomona causing instability in these devices. Accordingly, the influence of ion migration on the charge transport properties and energy spectra in CsPbBr2.4Cl0.6 detectors was also revealed. Our investigation demonstrates the strong correlation between ion migration processes and stable energy spectra in halide perovskite materials.",

author = "Zhang, {Bin Bin} and Fangbao Wang and Xin Liu and Bao Xiao and Meng Xu and Dong, {Song Tao} and Yadong Xu and Paul Sellin and Wanqi Jie",

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T1 - Ion migration controlled stability in α particle response of cspbbr2.4cl0.6 detectors

AU - Zhang, Bin Bin

AU - Wang, Fangbao

AU - Liu, Xin

AU - Xiao, Bao

AU - Xu, Meng

AU - Dong, Song Tao

AU - Xu, Yadong

AU - Sellin, Paul

AU - Jie, Wanqi

PY - 2021/2/25

Y1 - 2021/2/25

N2 - Halide perovskites have been considered as nuclear radiation detection materials due to their high mobility, long carrier lifetime, and high absorption coefficient. However, it has been reported that the ion migration increases the dark current of halide perovskite detectors and hinders the stable response to high energy photons or particles. In this work, we report the utilization of the "voltage cycling" technique to obtain the stable α-particle spectra in a CsPbBr2.4Cl0.6 device. Also, by measuring the timedependent stability and the effect of electric field strength, we can gain insight into the phenomona causing instability in these devices. Accordingly, the influence of ion migration on the charge transport properties and energy spectra in CsPbBr2.4Cl0.6 detectors was also revealed. Our investigation demonstrates the strong correlation between ion migration processes and stable energy spectra in halide perovskite materials.

AB - Halide perovskites have been considered as nuclear radiation detection materials due to their high mobility, long carrier lifetime, and high absorption coefficient. However, it has been reported that the ion migration increases the dark current of halide perovskite detectors and hinders the stable response to high energy photons or particles. In this work, we report the utilization of the "voltage cycling" technique to obtain the stable α-particle spectra in a CsPbBr2.4Cl0.6 device. Also, by measuring the timedependent stability and the effect of electric field strength, we can gain insight into the phenomona causing instability in these devices. Accordingly, the influence of ion migration on the charge transport properties and energy spectra in CsPbBr2.4Cl0.6 detectors was also revealed. Our investigation demonstrates the strong correlation between ion migration processes and stable energy spectra in halide perovskite materials.

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U2 - 10.1021/acs.jpcc.0c10758

DO - 10.1021/acs.jpcc.0c10758

M3 - 文章

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SN - 1932-7447

VL - 125

SP - 4235

EP - 4242

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 7

ER -

Ion migration controlled stability in α particle response of cspbbr2.4cl0.6 detectors

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