Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes

Ferroelectric (FE) Hf(1−x)Zr(x)O(2) is a potential candidate for emerging memory in artificial intelligence (AI) and neuromorphic computation due to its non-volatility for data storage with natural bi-stable characteristics. This study experimentally characterizes and demonstrates the FE and antifer...

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Autores principales: Hsiang, Kuo-Yu, Liao, Chun-Yu, Wang, Jer-Fu, Lou, Zhao-Feng, Lin, Chen-Ying, Chiang, Shih-Hung, Liu, Chee-Wee, Hou, Tuo-Hung, Lee, Min-Hung
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8541604/
https://www.ncbi.nlm.nih.gov/pubmed/34685126
http://dx.doi.org/10.3390/nano11102685
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author Hsiang, Kuo-Yu
Liao, Chun-Yu
Wang, Jer-Fu
Lou, Zhao-Feng
Lin, Chen-Ying
Chiang, Shih-Hung
Liu, Chee-Wee
Hou, Tuo-Hung
Lee, Min-Hung
author_facet Hsiang, Kuo-Yu
Liao, Chun-Yu
Wang, Jer-Fu
Lou, Zhao-Feng
Lin, Chen-Ying
Chiang, Shih-Hung
Liu, Chee-Wee
Hou, Tuo-Hung
Lee, Min-Hung
author_sort Hsiang, Kuo-Yu
collection PubMed
description Ferroelectric (FE) Hf(1−x)Zr(x)O(2) is a potential candidate for emerging memory in artificial intelligence (AI) and neuromorphic computation due to its non-volatility for data storage with natural bi-stable characteristics. This study experimentally characterizes and demonstrates the FE and antiferroelectric (AFE) material properties, which are modulated from doped Zr incorporated in the HfO(2)-system, with a diode-junction current for memory operations. Unipolar operations on one of the two hysteretic polarization branch loops of the mixed FE and AFE material give a low program voltage of 3 V with an ON/OFF ratio >100. This also benefits the switching endurance, which reaches >10(9) cycles. A model based on the polarization switching and tunneling mechanisms is revealed in the (A)FE diode to explain the bipolar and unipolar sweeps. In addition, the proposed FE-AFE diode with Hf(1−x)Zr(x)O(2) has a superior cycling endurance and lower stimulation voltage compared to perovskite FE-diodes due to its scaling capability for resistive FE memory devices.
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spelling pubmed-85416042021-10-24 Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes Hsiang, Kuo-Yu Liao, Chun-Yu Wang, Jer-Fu Lou, Zhao-Feng Lin, Chen-Ying Chiang, Shih-Hung Liu, Chee-Wee Hou, Tuo-Hung Lee, Min-Hung Nanomaterials (Basel) Article Ferroelectric (FE) Hf(1−x)Zr(x)O(2) is a potential candidate for emerging memory in artificial intelligence (AI) and neuromorphic computation due to its non-volatility for data storage with natural bi-stable characteristics. This study experimentally characterizes and demonstrates the FE and antiferroelectric (AFE) material properties, which are modulated from doped Zr incorporated in the HfO(2)-system, with a diode-junction current for memory operations. Unipolar operations on one of the two hysteretic polarization branch loops of the mixed FE and AFE material give a low program voltage of 3 V with an ON/OFF ratio >100. This also benefits the switching endurance, which reaches >10(9) cycles. A model based on the polarization switching and tunneling mechanisms is revealed in the (A)FE diode to explain the bipolar and unipolar sweeps. In addition, the proposed FE-AFE diode with Hf(1−x)Zr(x)O(2) has a superior cycling endurance and lower stimulation voltage compared to perovskite FE-diodes due to its scaling capability for resistive FE memory devices. MDPI 2021-10-12 /pmc/articles/PMC8541604/ /pubmed/34685126 http://dx.doi.org/10.3390/nano11102685 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Hsiang, Kuo-Yu
Liao, Chun-Yu
Wang, Jer-Fu
Lou, Zhao-Feng
Lin, Chen-Ying
Chiang, Shih-Hung
Liu, Chee-Wee
Hou, Tuo-Hung
Lee, Min-Hung
Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title_full Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title_fullStr Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title_full_unstemmed Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title_short Unipolar Parity of Ferroelectric-Antiferroelectric Characterized by Junction Current in Crystalline Phase Hf(1−x)Zr(x)O(2) Diodes
title_sort unipolar parity of ferroelectric-antiferroelectric characterized by junction current in crystalline phase hf(1−x)zr(x)o(2) diodes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8541604/
https://www.ncbi.nlm.nih.gov/pubmed/34685126
http://dx.doi.org/10.3390/nano11102685
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