Homogeneous phase W-Ge-Te material with improved overall phase-change properties for future nonvolatile memory

Cheng Peng; Feng Rao; Liangcai Wu; Zhitang Song; Yifeng Gu; Dong Zhou; Hongjia Song; Pingxiong Yang; Junhao Chu

doi:10.1016/j.actamat.2014.03.069

Homogeneous phase W-Ge-Te material with improved overall phase-change properties for future nonvolatile memory

Cheng Peng^*
, Feng Rao
, Liangcai Wu
, Zhitang Song
, Yifeng Gu
, Dong Zhou
, Hongjia Song
, Pingxiong Yang
, Junhao Chu

^*此作品的通讯作者

物理与电子科学学院

China Academy of Engineering Physics
CAS - Shanghai Institute of Microsystem and Information Technology
East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

32 引用（Scopus）

摘要

Homogeneous phase W-Ge-Te material has been proposed and investigated for phase-change memory (PCM) applications. The crystallization temperature of GeTe is markedly improved by introducing W atoms. In the W-Ge-Te material, W atoms bonding to Ge and Te atoms serve as substitutional impurities. During the crystallization process, the diffusion of Ge and Te atoms is restricted by W atoms that have larger atomic mass, which further leads to more uniform crystallization of the material. W atoms serve as nucleation centers and attract the surrounding Ge and Te atoms, quickly building crystal grains. W _0.1(GeTe)_0.9 film has a 10-year data retention temperature of 225 °C and an ultrafast crystallization time of 3 ns. Specifically, W_0.1(GeTe)_0.9 film can withstand the Pb-free solder reflow temperature (260 °C) for 4.6 × 10⁴ s. A voltage pulse of as little of 10 ns long can realize reversible operations for W _0.1(GeTe)_0.9-based PCM devices. In addition, good endurance (5 × 10⁵ cycles) has also been obtained for the cell.

源语言	英语
页（从-至）	49-57
页数	9
期刊	Acta Materialia
卷	74
DOI	https://doi.org/10.1016/j.actamat.2014.03.069
出版状态	已出版 - 1 8月 2014

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@article{28278318712e45ee9bd9a97738c3675a,

title = "Homogeneous phase W-Ge-Te material with improved overall phase-change properties for future nonvolatile memory",

abstract = "Homogeneous phase W-Ge-Te material has been proposed and investigated for phase-change memory (PCM) applications. The crystallization temperature of GeTe is markedly improved by introducing W atoms. In the W-Ge-Te material, W atoms bonding to Ge and Te atoms serve as substitutional impurities. During the crystallization process, the diffusion of Ge and Te atoms is restricted by W atoms that have larger atomic mass, which further leads to more uniform crystallization of the material. W atoms serve as nucleation centers and attract the surrounding Ge and Te atoms, quickly building crystal grains. W 0.1(GeTe)0.9 film has a 10-year data retention temperature of 225 °C and an ultrafast crystallization time of 3 ns. Specifically, W0.1(GeTe)0.9 film can withstand the Pb-free solder reflow temperature (260 °C) for 4.6 × 104 s. A voltage pulse of as little of 10 ns long can realize reversible operations for W 0.1(GeTe)0.9-based PCM devices. In addition, good endurance (5 × 105 cycles) has also been obtained for the cell.",

keywords = "Homogeneous phase, Operation speed, Phase-change material, Thermal stability, W-Ge-Te",

author = "Cheng Peng and Feng Rao and Liangcai Wu and Zhitang Song and Yifeng Gu and Dong Zhou and Hongjia Song and Pingxiong Yang and Junhao Chu",

year = "2014",

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doi = "10.1016/j.actamat.2014.03.069",

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T1 - Homogeneous phase W-Ge-Te material with improved overall phase-change properties for future nonvolatile memory

AU - Peng, Cheng

AU - Rao, Feng

AU - Wu, Liangcai

AU - Song, Zhitang

AU - Gu, Yifeng

AU - Zhou, Dong

AU - Song, Hongjia

AU - Yang, Pingxiong

AU - Chu, Junhao

PY - 2014/8/1

Y1 - 2014/8/1

N2 - Homogeneous phase W-Ge-Te material has been proposed and investigated for phase-change memory (PCM) applications. The crystallization temperature of GeTe is markedly improved by introducing W atoms. In the W-Ge-Te material, W atoms bonding to Ge and Te atoms serve as substitutional impurities. During the crystallization process, the diffusion of Ge and Te atoms is restricted by W atoms that have larger atomic mass, which further leads to more uniform crystallization of the material. W atoms serve as nucleation centers and attract the surrounding Ge and Te atoms, quickly building crystal grains. W 0.1(GeTe)0.9 film has a 10-year data retention temperature of 225 °C and an ultrafast crystallization time of 3 ns. Specifically, W0.1(GeTe)0.9 film can withstand the Pb-free solder reflow temperature (260 °C) for 4.6 × 104 s. A voltage pulse of as little of 10 ns long can realize reversible operations for W 0.1(GeTe)0.9-based PCM devices. In addition, good endurance (5 × 105 cycles) has also been obtained for the cell.

AB - Homogeneous phase W-Ge-Te material has been proposed and investigated for phase-change memory (PCM) applications. The crystallization temperature of GeTe is markedly improved by introducing W atoms. In the W-Ge-Te material, W atoms bonding to Ge and Te atoms serve as substitutional impurities. During the crystallization process, the diffusion of Ge and Te atoms is restricted by W atoms that have larger atomic mass, which further leads to more uniform crystallization of the material. W atoms serve as nucleation centers and attract the surrounding Ge and Te atoms, quickly building crystal grains. W 0.1(GeTe)0.9 film has a 10-year data retention temperature of 225 °C and an ultrafast crystallization time of 3 ns. Specifically, W0.1(GeTe)0.9 film can withstand the Pb-free solder reflow temperature (260 °C) for 4.6 × 104 s. A voltage pulse of as little of 10 ns long can realize reversible operations for W 0.1(GeTe)0.9-based PCM devices. In addition, good endurance (5 × 105 cycles) has also been obtained for the cell.

KW - Homogeneous phase

KW - Operation speed

KW - Phase-change material

KW - Thermal stability

KW - W-Ge-Te

UR - https://www.scopus.com/pages/publications/84899662221

U2 - 10.1016/j.actamat.2014.03.069

DO - 10.1016/j.actamat.2014.03.069

M3 - 文章

AN - SCOPUS:84899662221

SN - 1359-6454

VL - 74

SP - 49

EP - 57

JO - Acta Materialia

JF - Acta Materialia

ER -

Homogeneous phase W-Ge-Te material with improved overall phase-change properties for future nonvolatile memory

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