Scalability of Sulfur-Based Ovonic Threshold Selectors for 3D Stackable Memory Applications

Shujing Jia; Huanglong Li; Qi Liu; Zhitang Song; Min Zhu

doi:10.1002/pssr.202100084

Scalability of Sulfur-Based Ovonic Threshold Selectors for 3D Stackable Memory Applications

Shujing Jia
, Huanglong Li
, Qi Liu
, Zhitang Song
, Min Zhu^*

^*此作品的通讯作者

CAS - Institute of Microelectronics
CAS - Shanghai Institute of Microsystem and Information Technology
University of Chinese Academy of Sciences
Tsinghua University
Fudan University

科研成果: 期刊稿件 › 文章 › 同行评审

21 引用（Scopus）

摘要

A two-terminal selector is an essential element for high-density 3D stackable memory arrays. Suppressing sneak current, the device also needs to provide extremely high current density to melt-quench the storage layer in phase-change memory (PCM). Recently, an ovonic threshold switching (OTS) selector based on amorphous GeS demonstrated a large current density, which seems to be promising for 3D stackable PCM application. Herein, the scalability of GeS OTS selectors is investigated as the device scales down from 200 to 60 nm. Interestingly, the ON/OFF current, threshold voltage, and switching speed hardly change as the device scales down, whereas the ON current density exponentially grows. A large current density, ≈35.4 MA cm⁻², is achieved in 60 nm-sized devices. The high current density endows the GeS selector with great potential for use in high-density 3D stackable memory applications.

源语言	英语
文章编号	2100084
期刊	Physica Status Solidi - Rapid Research Letters
卷	15
期	6
DOI	https://doi.org/10.1002/pssr.202100084
出版状态	已出版 - 6月 2021
已对外发布	是

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title = "Scalability of Sulfur-Based Ovonic Threshold Selectors for 3D Stackable Memory Applications",

abstract = "A two-terminal selector is an essential element for high-density 3D stackable memory arrays. Suppressing sneak current, the device also needs to provide extremely high current density to melt-quench the storage layer in phase-change memory (PCM). Recently, an ovonic threshold switching (OTS) selector based on amorphous GeS demonstrated a large current density, which seems to be promising for 3D stackable PCM application. Herein, the scalability of GeS OTS selectors is investigated as the device scales down from 200 to 60 nm. Interestingly, the ON/OFF current, threshold voltage, and switching speed hardly change as the device scales down, whereas the ON current density exponentially grows. A large current density, ≈35.4 MA cm−2, is achieved in 60 nm-sized devices. The high current density endows the GeS selector with great potential for use in high-density 3D stackable memory applications.",

keywords = "GeS, ovonic threshold switching, phase-change memory, scalability, selectors",

author = "Shujing Jia and Huanglong Li and Qi Liu and Zhitang Song and Min Zhu",

note = "Publisher Copyright: {\textcopyright} 2021 Wiley-VCH GmbH",

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AU - Jia, Shujing

AU - Li, Huanglong

AU - Liu, Qi

AU - Song, Zhitang

AU - Zhu, Min

PY - 2021/6

Y1 - 2021/6

N2 - A two-terminal selector is an essential element for high-density 3D stackable memory arrays. Suppressing sneak current, the device also needs to provide extremely high current density to melt-quench the storage layer in phase-change memory (PCM). Recently, an ovonic threshold switching (OTS) selector based on amorphous GeS demonstrated a large current density, which seems to be promising for 3D stackable PCM application. Herein, the scalability of GeS OTS selectors is investigated as the device scales down from 200 to 60 nm. Interestingly, the ON/OFF current, threshold voltage, and switching speed hardly change as the device scales down, whereas the ON current density exponentially grows. A large current density, ≈35.4 MA cm−2, is achieved in 60 nm-sized devices. The high current density endows the GeS selector with great potential for use in high-density 3D stackable memory applications.

AB - A two-terminal selector is an essential element for high-density 3D stackable memory arrays. Suppressing sneak current, the device also needs to provide extremely high current density to melt-quench the storage layer in phase-change memory (PCM). Recently, an ovonic threshold switching (OTS) selector based on amorphous GeS demonstrated a large current density, which seems to be promising for 3D stackable PCM application. Herein, the scalability of GeS OTS selectors is investigated as the device scales down from 200 to 60 nm. Interestingly, the ON/OFF current, threshold voltage, and switching speed hardly change as the device scales down, whereas the ON current density exponentially grows. A large current density, ≈35.4 MA cm−2, is achieved in 60 nm-sized devices. The high current density endows the GeS selector with great potential for use in high-density 3D stackable memory applications.

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KW - ovonic threshold switching

KW - phase-change memory

KW - scalability

KW - selectors

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Scalability of Sulfur-Based Ovonic Threshold Selectors for 3D Stackable Memory Applications

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