Hydrogen-induced tunable remanent polarization in a perovskite nickelate

Yifan Yuan; Michele Kotiuga; Tae Joon Park; Ranjan Kumar Patel; Yuanyuan Ni; Arnob Saha; Hua Zhou; Jerzy T. Sadowski; Abdullah Al-Mahboob; Haoming Yu; Kai Du; Minning Zhu; Sunbin Deng; Ravindra S. Bisht; Xiao Lyu; Chung Tse Michael Wu; Peide D. Ye; Abhronil Sengupta; Sang Wook Cheong; Xiaoshan Xu; Karin M. Rabe; Shriram Ramanathan

doi:10.1038/s41467-024-49213-0

Hydrogen-induced tunable remanent polarization in a perovskite nickelate

Yifan Yuan, Michele Kotiuga, Tae Joon Park, Ranjan Kumar Patel, Yuanyuan Ni, Arnob Saha, Hua Zhou, Jerzy T. Sadowski, Abdullah Al-Mahboob, Haoming Yu, Kai Du, Minning Zhu, Sunbin Deng, Ravindra S. Bisht, Xiao Lyu, Chung Tse Michael Wu, Peide D. Ye, Abhronil Sengupta, Sang Wook Cheong, Xiaoshan XuKarin M. Rabe, Shriram Ramanathan

School of Arts and Sciences, New High Energy Theory Center

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

4 Scopus citations

Abstract

Materials with field-tunable polarization are of broad interest to condensed matter sciences and solid-state device technologies. Here, using hydrogen (H) donor doping, we modify the room temperature metallic phase of a perovskite nickelate NdNiO₃ into an insulating phase with both metastable dipolar polarization and space-charge polarization. We then demonstrate transient negative differential capacitance in thin film capacitors. The space-charge polarization caused by long-range movement and trapping of protons dominates when the electric field exceeds the threshold value. First-principles calculations suggest the polarization originates from the polar structure created by H doping. We find that polarization decays within ~1 second which is an interesting temporal regime for neuromorphic computing hardware design, and we implement the transient characteristics in a neural network to demonstrate unsupervised learning. These discoveries open new avenues for designing ferroelectric materials and electrets using light-ion doping.

Original language	English (US)
Article number	4717
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-49213-0
State	Published - Dec 2024

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-024-49213-0

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Yuan, Y., Kotiuga, M., Park, T. J., Patel, R. K., Ni, Y., Saha, A., Zhou, H., Sadowski, J. T., Al-Mahboob, A., Yu, H., Du, K., Zhu, M., Deng, S., Bisht, R. S., Lyu, X., Wu, C. T. M., Ye, P. D., Sengupta, A., Cheong, S. W., ... Ramanathan, S. (2024). Hydrogen-induced tunable remanent polarization in a perovskite nickelate. Nature communications, 15(1), Article 4717. https://doi.org/10.1038/s41467-024-49213-0

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title = "Hydrogen-induced tunable remanent polarization in a perovskite nickelate",

abstract = "Materials with field-tunable polarization are of broad interest to condensed matter sciences and solid-state device technologies. Here, using hydrogen (H) donor doping, we modify the room temperature metallic phase of a perovskite nickelate NdNiO3 into an insulating phase with both metastable dipolar polarization and space-charge polarization. We then demonstrate transient negative differential capacitance in thin film capacitors. The space-charge polarization caused by long-range movement and trapping of protons dominates when the electric field exceeds the threshold value. First-principles calculations suggest the polarization originates from the polar structure created by H doping. We find that polarization decays within ~1 second which is an interesting temporal regime for neuromorphic computing hardware design, and we implement the transient characteristics in a neural network to demonstrate unsupervised learning. These discoveries open new avenues for designing ferroelectric materials and electrets using light-ion doping.",

author = "Yifan Yuan and Michele Kotiuga and Park, {Tae Joon} and Patel, {Ranjan Kumar} and Yuanyuan Ni and Arnob Saha and Hua Zhou and Sadowski, {Jerzy T.} and Abdullah Al-Mahboob and Haoming Yu and Kai Du and Minning Zhu and Sunbin Deng and Bisht, {Ravindra S.} and Xiao Lyu and Wu, {Chung Tse Michael} and Ye, {Peide D.} and Abhronil Sengupta and Cheong, {Sang Wook} and Xiaoshan Xu and Rabe, {Karin M.} and Shriram Ramanathan",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-49213-0",

language = "English (US)",

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Yuan, Y, Kotiuga, M, Park, TJ, Patel, RK, Ni, Y, Saha, A, Zhou, H, Sadowski, JT, Al-Mahboob, A, Yu, H, Du, K, Zhu, M, Deng, S, Bisht, RS, Lyu, X, Wu, CTM, Ye, PD, Sengupta, A, Cheong, SW, Xu, X, Rabe, KM & Ramanathan, S 2024, 'Hydrogen-induced tunable remanent polarization in a perovskite nickelate', Nature communications, vol. 15, no. 1, 4717. https://doi.org/10.1038/s41467-024-49213-0

TY - JOUR

T1 - Hydrogen-induced tunable remanent polarization in a perovskite nickelate

AU - Yuan, Yifan

AU - Kotiuga, Michele

AU - Park, Tae Joon

AU - Patel, Ranjan Kumar

AU - Ni, Yuanyuan

AU - Saha, Arnob

AU - Zhou, Hua

AU - Sadowski, Jerzy T.

AU - Al-Mahboob, Abdullah

AU - Yu, Haoming

AU - Du, Kai

AU - Zhu, Minning

AU - Deng, Sunbin

AU - Bisht, Ravindra S.

AU - Lyu, Xiao

AU - Wu, Chung Tse Michael

AU - Ye, Peide D.

AU - Sengupta, Abhronil

AU - Cheong, Sang Wook

AU - Xu, Xiaoshan

AU - Rabe, Karin M.

AU - Ramanathan, Shriram

PY - 2024/12

Y1 - 2024/12

N2 - Materials with field-tunable polarization are of broad interest to condensed matter sciences and solid-state device technologies. Here, using hydrogen (H) donor doping, we modify the room temperature metallic phase of a perovskite nickelate NdNiO3 into an insulating phase with both metastable dipolar polarization and space-charge polarization. We then demonstrate transient negative differential capacitance in thin film capacitors. The space-charge polarization caused by long-range movement and trapping of protons dominates when the electric field exceeds the threshold value. First-principles calculations suggest the polarization originates from the polar structure created by H doping. We find that polarization decays within ~1 second which is an interesting temporal regime for neuromorphic computing hardware design, and we implement the transient characteristics in a neural network to demonstrate unsupervised learning. These discoveries open new avenues for designing ferroelectric materials and electrets using light-ion doping.

AB - Materials with field-tunable polarization are of broad interest to condensed matter sciences and solid-state device technologies. Here, using hydrogen (H) donor doping, we modify the room temperature metallic phase of a perovskite nickelate NdNiO3 into an insulating phase with both metastable dipolar polarization and space-charge polarization. We then demonstrate transient negative differential capacitance in thin film capacitors. The space-charge polarization caused by long-range movement and trapping of protons dominates when the electric field exceeds the threshold value. First-principles calculations suggest the polarization originates from the polar structure created by H doping. We find that polarization decays within ~1 second which is an interesting temporal regime for neuromorphic computing hardware design, and we implement the transient characteristics in a neural network to demonstrate unsupervised learning. These discoveries open new avenues for designing ferroelectric materials and electrets using light-ion doping.

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JO - Nature communications

JF - Nature communications

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ER -

Hydrogen-induced tunable remanent polarization in a perovskite nickelate

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