Investigation of Cu–Sn–Se material for high-speed phase-change memory applications

被引:0
|
作者
Haipeng You
Yifeng Hu
Xiaoqin Zhu
Hua Zou
Sannian Song
Zhitang Song
机构
[1] Jiangsu University of Technology,School of Mathematics and Physics
[2] Chinese Academy of Sciences,State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Micro
来源
Journal of Materials Science: Materials in Electronics | 2017年 / 28卷
关键词
Phase Change Material; SnSe; Phase Change Memory; Picosecond Pulse Laser; Irradiation Fluence;
D O I
暂无
中图分类号
学科分类号
摘要
Cu–Sn–Se material was prepared by magnetron sputtering to investigate its potential application in phase change memory. The amorphous-to-crystalline transition was studied by in situ film resistance measurements. Cu–Sn–Se material had lower activation energy for crystallization (1.60 eV) and higher crystallization resistance than SnSe. The amorphous Cu–Sn–Se had more narrow band gap compared to SnSe. After the adding of Cu, the crystallization of Cu–Sn–Se material was inhibited and the grain structure became more compact. The picosecond laser pulse measurement indicated that Cu–Sn–Se material had a fast phase change speed (3.36 ns). The results demonstrated that Cu–Sn–Se material was a promising phase change material which had low power and high speed application in phase change memory.
引用
收藏
页码:10199 / 10204
页数:5
相关论文
共 50 条
  • [21] Outstanding phase-change behaviors of GaGeSbTe material for phase-change memory application
    Fang, Wencheng
    Song, Sannian
    Zhao, Jin
    Li, Chengxing
    Cai, Daolin
    Song, Zhitang
    MATERIALS RESEARCH BULLETIN, 2022, 149
  • [22] Phase-change memory: Science and applications
    Kolobov, Alexander V.
    Popescu, Mihai
    PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 2012, 249 (10): : 1824 - 1826
  • [23] Breaking the Speed Limits of Phase-Change Memory
    Loke, D.
    Lee, T. H.
    Wang, W. J.
    Shi, L. P.
    Zhao, R.
    Yeo, Y. C.
    Chong, T. C.
    Elliott, S. R.
    SCIENCE, 2012, 336 (6088) : 1566 - 1569
  • [24] Toward the Speed Limit of Phase-Change Memory
    Shen, Jiabin
    Song, Wenxiong
    Ren, Kun
    Song, Zhitang
    Zhou, Peng
    Zhu, Min
    ADVANCED MATERIALS, 2023, 35 (11)
  • [25] Advantages of SixSb2Te phase-change material and its applications in phase-change random access memory
    Gu, Yifeng
    Cheng, Yan
    Song, Sannian
    Zhang, Ting
    Song, Zhitang
    Liu, Xuyan
    Du, Xiaofeng
    Liu, Bo
    Feng, Songlin
    SCRIPTA MATERIALIA, 2011, 65 (07) : 622 - 625
  • [26] Heterogeneous nucleus-induced crystallization for high-speed phase change memory applications
    Liu, Guangyu
    Wu, Liangcai
    Zhang, Sifan
    Liu, Wanliang
    Lv, Shilong
    Zhu, Min
    Song, Sannian
    Song, Zhitang
    APPLIED PHYSICS LETTERS, 2019, 115 (13)
  • [27] HIGH-SPEED TRANSFORMATIONS IN PHASE-CHANGE OPTICAL-RECORDING MEDIA
    JUNG, AL
    SITU, H
    YE, QQ
    WANG, ZT
    HE, ZG
    XIE, J
    YU, HT
    ZHANG, ZL
    SHI, LQ
    ZHAO, J
    LI, XB
    JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES & REVIEW PAPERS, 1989, 28 : 281 - 283
  • [28] Change in Crystallization Mechanism of Sb Film by Doping VO2 for Ultraretention and High-Speed Phase-Change Memory
    Zhang, Qian
    Lu, Yegang
    CRYSTAL GROWTH & DESIGN, 2019, 19 (06) : 3477 - 3483
  • [29] Prediction of the characteristics for high-speed recording of phase-change optical media
    Nishi, Y
    Shintani, T
    Kando, H
    Terao, M
    ISOM/ODS 2002: INTERNATIONAL SYMPOSIUM ON OPTICAL MEMORY AND OPTICAL DATA STORAGE TOPICAL MEETING, TECHNICAL DIGEST, 2002, : 171 - 173
  • [30] GaGeSb alloys for high-speed reversible phase-change optical recording
    Dimitrov, DZ
    Babeva, C
    Cheng, ST
    Hsu, WC
    Hsieh, MH
    Tsai, SY
    OPTICAL DATA STORAGE 2004, 2004, 5380 : 487 - 492
12345