Low-resistivity C54-TiSi2 as a sidewall-confinement nanoscale electrode for three-dimensional vertical resistive memory

José Ramón Durán Retamal; Chen Fang Kang; Po Kang Yang; Chuan Pei Lee; Der Hsien Lien; Chih Hsiang Ho; Jr Hau He

doi:10.1063/1.4901072

Low-resistivity C54-TiSi₂ as a sidewall-confinement nanoscale electrode for three-dimensional vertical resistive memory

José Ramón Durán Retamal, Chen Fang Kang, Po Kang Yang, Chuan Pei Lee, Der Hsien Lien, Chih Hsiang Ho, Jr Hau He

研究成果: 雜誌貢獻 › 文章 › 同行評審

7 引文斯高帕斯（Scopus）

摘要

A three-dimensional (3D) double-layer HfO2-based vertical-resistive random access memory (VRRAM) with low-resistivity C54-TiSi2 as horizontal electrodes is demonstrated using complementary metal-oxide semiconductor processing. The electrical measurements show bipolar resistive switching by using C54-TiSi2 as electrodes for resistive switching (RS) applications. The statistical analysis exhibits cycle-to-cycle and cell-to-cell stable non-volatile properties with robust endurance (100 cycles) and long term data retention (104s), suggesting that the ultrathin sidewall of C54-TiSi2 nanoscale electrodes serve to confine and stabilize the random nature of the conducting nanofilaments. The superior RS characteristics demonstrated here highlight the applicability of C54-TiSi2 sidewall-confinement nanoscale electrodes to VRRAM.

原文	英語
文章編號	182101
期刊	Applied Physics Letters
卷	105
發行號	18
DOIs	https://doi.org/10.1063/1.4901072
出版狀態	已發佈 - 11月 3 2014
對外發佈	是

ASJC Scopus subject areas

物理與天文學（雜項）

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10.1063/1.4901072

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引用此

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title = "Low-resistivity C54-TiSi2 as a sidewall-confinement nanoscale electrode for three-dimensional vertical resistive memory",

abstract = "A three-dimensional (3D) double-layer HfO2-based vertical-resistive random access memory (VRRAM) with low-resistivity C54-TiSi2 as horizontal electrodes is demonstrated using complementary metal-oxide semiconductor processing. The electrical measurements show bipolar resistive switching by using C54-TiSi2 as electrodes for resistive switching (RS) applications. The statistical analysis exhibits cycle-to-cycle and cell-to-cell stable non-volatile properties with robust endurance (100 cycles) and long term data retention (104s), suggesting that the ultrathin sidewall of C54-TiSi2 nanoscale electrodes serve to confine and stabilize the random nature of the conducting nanofilaments. The superior RS characteristics demonstrated here highlight the applicability of C54-TiSi2 sidewall-confinement nanoscale electrodes to VRRAM.",

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AU - Durán Retamal, José Ramón

AU - Kang, Chen Fang

AU - Yang, Po Kang

AU - Lee, Chuan Pei

AU - Lien, Der Hsien

AU - Ho, Chih Hsiang

AU - He, Jr Hau

PY - 2014/11/3

Y1 - 2014/11/3

N2 - A three-dimensional (3D) double-layer HfO2-based vertical-resistive random access memory (VRRAM) with low-resistivity C54-TiSi2 as horizontal electrodes is demonstrated using complementary metal-oxide semiconductor processing. The electrical measurements show bipolar resistive switching by using C54-TiSi2 as electrodes for resistive switching (RS) applications. The statistical analysis exhibits cycle-to-cycle and cell-to-cell stable non-volatile properties with robust endurance (100 cycles) and long term data retention (104s), suggesting that the ultrathin sidewall of C54-TiSi2 nanoscale electrodes serve to confine and stabilize the random nature of the conducting nanofilaments. The superior RS characteristics demonstrated here highlight the applicability of C54-TiSi2 sidewall-confinement nanoscale electrodes to VRRAM.

AB - A three-dimensional (3D) double-layer HfO2-based vertical-resistive random access memory (VRRAM) with low-resistivity C54-TiSi2 as horizontal electrodes is demonstrated using complementary metal-oxide semiconductor processing. The electrical measurements show bipolar resistive switching by using C54-TiSi2 as electrodes for resistive switching (RS) applications. The statistical analysis exhibits cycle-to-cycle and cell-to-cell stable non-volatile properties with robust endurance (100 cycles) and long term data retention (104s), suggesting that the ultrathin sidewall of C54-TiSi2 nanoscale electrodes serve to confine and stabilize the random nature of the conducting nanofilaments. The superior RS characteristics demonstrated here highlight the applicability of C54-TiSi2 sidewall-confinement nanoscale electrodes to VRRAM.

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Low-resistivity C54-TiSi2 as a sidewall-confinement nanoscale electrode for three-dimensional vertical resistive memory

摘要

ASJC Scopus subject areas

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指紋

引用此

Low-resistivity C54-TiSi₂ as a sidewall-confinement nanoscale electrode for three-dimensional vertical resistive memory