Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity

Noelia Devesa Canicoba; Nicolo Zagni; Fangze Liu; Gary McCuistian; Kasun Fernando; Hugo Bellezza; Boubacar Traore; Regis Rogel; Hsinhan Tsai; Laurent Le Brizoual; Wanyi Nie; Jared J. Crochet; Sergei Tretiak; Claudine Katan; Jacky Even; Mercouri G. Kanatzidis; Bruce W. Alphenaar; Jean Christophe Blancon; Muhammad Ashraf Alam; Aditya D. Mohite

doi:10.1021/acsmaterialslett.9b00357

Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity

Noelia Devesa Canicoba, Nicolo Zagni, Fangze Liu, Gary McCuistian, Kasun Fernando, Hugo Bellezza, Boubacar Traore, Regis Rogel, Hsinhan Tsai, Laurent Le Brizoual, Wanyi Nie, Jared J. Crochet, Sergei Tretiak, Claudine Katan, Jacky Even, Mercouri G. Kanatzidis, Bruce W. Alphenaar, Jean Christophe Blancon, Muhammad Ashraf Alam, Aditya D. Mohite^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

35 引用（Scopus）

摘要

Despite the remarkable optoelectronic properties of halide perovskites, achieving reproducible field effect transistor (FET) action in polycrystalline films at room temperature has been challenging and represents a fundamental bottleneck for understanding electronic charge transport in these materials. In this work, we report halide perovskite-based FET operation at room temperature with negligible hysteresis. Extensive measurements and device modeling reveal that incorporating high-k dielectrics enables modulation of the channel conductance. Furthermore, continuous bias cycling or resting allows dynamical reconfiguration of the FETs between p-type behavior and ambipolar FET with balanced electron and hole transport and an ON/OFF ratio up to 10⁴ and negligible degradation in transport characteristics over 100 cycles. These results elucidate the path for achieving gate modulation in perovskite thin films and provide a platform to understand the interplay between the perovskite structure and external stimuli such as photons, fields, and functional substrates, which will lead to novel and emergent properties.

源语言	英语
页（从-至）	633-640
页数	8
期刊	ACS Materials Letters
卷	1
期	6
DOI	https://doi.org/10.1021/acsmaterialslett.9b00357
出版状态	已出版 - 2019
已对外发布	是

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Canicoba, N. D., Zagni, N., Liu, F., McCuistian, G., Fernando, K., Bellezza, H., Traore, B., Rogel, R., Tsai, H., Le Brizoual, L., Nie, W., Crochet, J. J., Tretiak, S., Katan, C., Even, J., Kanatzidis, M. G., Alphenaar, B. W., Blancon, J. C., Alam, M. A., & Mohite, A. D. (2019). Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity. ACS Materials Letters, 1(6), 633-640. https://doi.org/10.1021/acsmaterialslett.9b00357

@article{b2b947c8732f48d8b2754bde651fc47e,

title = "Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity",

abstract = "Despite the remarkable optoelectronic properties of halide perovskites, achieving reproducible field effect transistor (FET) action in polycrystalline films at room temperature has been challenging and represents a fundamental bottleneck for understanding electronic charge transport in these materials. In this work, we report halide perovskite-based FET operation at room temperature with negligible hysteresis. Extensive measurements and device modeling reveal that incorporating high-k dielectrics enables modulation of the channel conductance. Furthermore, continuous bias cycling or resting allows dynamical reconfiguration of the FETs between p-type behavior and ambipolar FET with balanced electron and hole transport and an ON/OFF ratio up to 104 and negligible degradation in transport characteristics over 100 cycles. These results elucidate the path for achieving gate modulation in perovskite thin films and provide a platform to understand the interplay between the perovskite structure and external stimuli such as photons, fields, and functional substrates, which will lead to novel and emergent properties.",

author = "Canicoba, {Noelia Devesa} and Nicolo Zagni and Fangze Liu and Gary McCuistian and Kasun Fernando and Hugo Bellezza and Boubacar Traore and Regis Rogel and Hsinhan Tsai and {Le Brizoual}, Laurent and Wanyi Nie and Crochet, {Jared J.} and Sergei Tretiak and Claudine Katan and Jacky Even and Kanatzidis, {Mercouri G.} and Alphenaar, {Bruce W.} and Blancon, {Jean Christophe} and Alam, {Muhammad Ashraf} and Mohite, {Aditya D.}",

note = "Publisher Copyright: {\textcopyright} 2019 American Chemical Society",

year = "2019",

doi = "10.1021/acsmaterialslett.9b00357",

language = "English",

volume = "1",

pages = "633--640",

journal = "ACS Materials Letters",

issn = "2639-4979",

publisher = "American Chemical Society",

number = "6",

}

Canicoba, ND, Zagni, N, Liu, F, McCuistian, G, Fernando, K, Bellezza, H, Traore, B, Rogel, R, Tsai, H, Le Brizoual, L, Nie, W, Crochet, JJ, Tretiak, S, Katan, C, Even, J, Kanatzidis, MG, Alphenaar, BW, Blancon, JC, Alam, MA & Mohite, AD 2019, 'Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity', ACS Materials Letters, 卷 1, 号码 6, 页码 633-640. https://doi.org/10.1021/acsmaterialslett.9b00357

TY - JOUR

T1 - Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity

AU - Canicoba, Noelia Devesa

AU - Zagni, Nicolo

AU - Liu, Fangze

AU - McCuistian, Gary

AU - Fernando, Kasun

AU - Bellezza, Hugo

AU - Traore, Boubacar

AU - Rogel, Regis

AU - Tsai, Hsinhan

AU - Le Brizoual, Laurent

AU - Nie, Wanyi

AU - Crochet, Jared J.

AU - Tretiak, Sergei

AU - Katan, Claudine

AU - Even, Jacky

AU - Kanatzidis, Mercouri G.

AU - Alphenaar, Bruce W.

AU - Blancon, Jean Christophe

AU - Alam, Muhammad Ashraf

AU - Mohite, Aditya D.

PY - 2019

Y1 - 2019

N2 - Despite the remarkable optoelectronic properties of halide perovskites, achieving reproducible field effect transistor (FET) action in polycrystalline films at room temperature has been challenging and represents a fundamental bottleneck for understanding electronic charge transport in these materials. In this work, we report halide perovskite-based FET operation at room temperature with negligible hysteresis. Extensive measurements and device modeling reveal that incorporating high-k dielectrics enables modulation of the channel conductance. Furthermore, continuous bias cycling or resting allows dynamical reconfiguration of the FETs between p-type behavior and ambipolar FET with balanced electron and hole transport and an ON/OFF ratio up to 104 and negligible degradation in transport characteristics over 100 cycles. These results elucidate the path for achieving gate modulation in perovskite thin films and provide a platform to understand the interplay between the perovskite structure and external stimuli such as photons, fields, and functional substrates, which will lead to novel and emergent properties.

AB - Despite the remarkable optoelectronic properties of halide perovskites, achieving reproducible field effect transistor (FET) action in polycrystalline films at room temperature has been challenging and represents a fundamental bottleneck for understanding electronic charge transport in these materials. In this work, we report halide perovskite-based FET operation at room temperature with negligible hysteresis. Extensive measurements and device modeling reveal that incorporating high-k dielectrics enables modulation of the channel conductance. Furthermore, continuous bias cycling or resting allows dynamical reconfiguration of the FETs between p-type behavior and ambipolar FET with balanced electron and hole transport and an ON/OFF ratio up to 104 and negligible degradation in transport characteristics over 100 cycles. These results elucidate the path for achieving gate modulation in perovskite thin films and provide a platform to understand the interplay between the perovskite structure and external stimuli such as photons, fields, and functional substrates, which will lead to novel and emergent properties.

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DO - 10.1021/acsmaterialslett.9b00357

M3 - Article

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SN - 2639-4979

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SP - 633

EP - 640

JO - ACS Materials Letters

JF - ACS Materials Letters

IS - 6

ER -

Halide perovskite high-K field effect transistors with dynamically reconfigurable ambipolarity

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