Atomic scale insight into the effects of Aluminum doped Sb2Te for phase change memory application

Yong Wang; Tianbo Wang; Yonghui Zheng; Guangyu Liu; Tao Li; Shilong Lv; Wenxiong Song; Sannian Song; Yan Cheng; Kun Ren; Zhitang Song

doi:10.1038/s41598-018-33421-y

Atomic scale insight into the effects of Aluminum doped Sb₂Te for phase change memory application

Yong Wang
, Tianbo Wang
, Yonghui Zheng
, Guangyu Liu
, Tao Li
, Shilong Lv
, Wenxiong Song
, Sannian Song
, Yan Cheng
, Kun Ren^*
, Zhitang Song

^*Corresponding author for this work

School of Physics and Electronic Science

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

21 Scopus citations

Abstract

To date, the unpleasant trade-off between crystallization speed and thermal stability for most phase change materials is detrimental to achieve phase change memory (PCM) with both features of high-speed and good-retention. However, it is proved that Al doping in Sb₂Te, served as storage media in PCM, favors both a high writing speed (6 ns) and a good retention (103 °C), as well as a low power consumption. Judging by experimental and theoretical investigations, doped Al atoms prefer to replace Sb in Sb₂Te lattice, strongly bonded with 6 Te atoms, to form a homogeneous phase. While in amorphous Al doped Sb₂Te (AST), Al atoms are in tetrahedral environment, firmly bonded with four Sb/Te atoms. The strong bonding in Al centered tetrahedron in amorphous AST can obstruct the collective motion of Sb atoms near the matrix boundary, leading to the improvement in thermal stability and the confinement in grain size.

Original language	English
Article number	15136
Journal	Scientific Reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-33421-y
State	Published - 1 Dec 2018

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title = "Atomic scale insight into the effects of Aluminum doped Sb2Te for phase change memory application",

abstract = "To date, the unpleasant trade-off between crystallization speed and thermal stability for most phase change materials is detrimental to achieve phase change memory (PCM) with both features of high-speed and good-retention. However, it is proved that Al doping in Sb2Te, served as storage media in PCM, favors both a high writing speed (6 ns) and a good retention (103 °C), as well as a low power consumption. Judging by experimental and theoretical investigations, doped Al atoms prefer to replace Sb in Sb2Te lattice, strongly bonded with 6 Te atoms, to form a homogeneous phase. While in amorphous Al doped Sb2Te (AST), Al atoms are in tetrahedral environment, firmly bonded with four Sb/Te atoms. The strong bonding in Al centered tetrahedron in amorphous AST can obstruct the collective motion of Sb atoms near the matrix boundary, leading to the improvement in thermal stability and the confinement in grain size.",

author = "Yong Wang and Tianbo Wang and Yonghui Zheng and Guangyu Liu and Tao Li and Shilong Lv and Wenxiong Song and Sannian Song and Yan Cheng and Kun Ren and Zhitang Song",

note = "Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

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day = "1",

doi = "10.1038/s41598-018-33421-y",

language = "英语",

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TY - JOUR

T1 - Atomic scale insight into the effects of Aluminum doped Sb2Te for phase change memory application

AU - Wang, Yong

AU - Wang, Tianbo

AU - Zheng, Yonghui

AU - Liu, Guangyu

AU - Li, Tao

AU - Lv, Shilong

AU - Song, Wenxiong

AU - Song, Sannian

AU - Cheng, Yan

AU - Ren, Kun

AU - Song, Zhitang

PY - 2018/12/1

Y1 - 2018/12/1

N2 - To date, the unpleasant trade-off between crystallization speed and thermal stability for most phase change materials is detrimental to achieve phase change memory (PCM) with both features of high-speed and good-retention. However, it is proved that Al doping in Sb2Te, served as storage media in PCM, favors both a high writing speed (6 ns) and a good retention (103 °C), as well as a low power consumption. Judging by experimental and theoretical investigations, doped Al atoms prefer to replace Sb in Sb2Te lattice, strongly bonded with 6 Te atoms, to form a homogeneous phase. While in amorphous Al doped Sb2Te (AST), Al atoms are in tetrahedral environment, firmly bonded with four Sb/Te atoms. The strong bonding in Al centered tetrahedron in amorphous AST can obstruct the collective motion of Sb atoms near the matrix boundary, leading to the improvement in thermal stability and the confinement in grain size.

AB - To date, the unpleasant trade-off between crystallization speed and thermal stability for most phase change materials is detrimental to achieve phase change memory (PCM) with both features of high-speed and good-retention. However, it is proved that Al doping in Sb2Te, served as storage media in PCM, favors both a high writing speed (6 ns) and a good retention (103 °C), as well as a low power consumption. Judging by experimental and theoretical investigations, doped Al atoms prefer to replace Sb in Sb2Te lattice, strongly bonded with 6 Te atoms, to form a homogeneous phase. While in amorphous Al doped Sb2Te (AST), Al atoms are in tetrahedral environment, firmly bonded with four Sb/Te atoms. The strong bonding in Al centered tetrahedron in amorphous AST can obstruct the collective motion of Sb atoms near the matrix boundary, leading to the improvement in thermal stability and the confinement in grain size.

UR - https://www.scopus.com/pages/publications/85054777289

U2 - 10.1038/s41598-018-33421-y

DO - 10.1038/s41598-018-33421-y

M3 - 文章

C2 - 30310138

AN - SCOPUS:85054777289

SN - 2045-2322

VL - 8

JO - Scientific Reports

JF - Scientific Reports

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M1 - 15136

ER -

Atomic scale insight into the effects of Aluminum doped Sb₂Te for phase change memory application

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