Tunable Quantum Confinement Effect on Non-Volatile Thin Film Polymer Memory Device

被引:0
|
作者
Hong, Augustin J. [1 ]
Wang, Kang L. [1 ]
Kwan, Wei Lek
Yang, Yang
Parra, Dayanara
Tolbert, Sarah
机构
[1] Univ Calif Los Angeles, Dept Elect Engn, Los Angeles, CA 90095 USA
来源
POLYMER-BASED SMART MATERIALS - PROCESSES, PROPERTIES AND APPLICATION | 2009年 / 1134卷
关键词
D O I
暂无
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Several dodecanethiol capped An nanoparticles (Au-DT) less than 5 nm in size were synthesized for the fabrication of a non-volatile polymer memory device (PMD). Size characterizations of Au-DTs were confirmed by XRD and (1)H NMR. The PMD consisted of a polystyrene thin Film containing Au-DT and 8-Hydroquinoline (8-HQ) sandwiched between two aluminum electrodes. The device exhibited desired "write", "read" and "erase" steps of a memory cycle. Quantum confinement effects were apparent because electronic properties of the device depended oil the nanoparticle size. An energy band diagram for the quantized charging and a novel conducting mechanism were suggested.
引用
收藏
页码:97 / 102
页数:6
相关论文
共 50 条
  • [31] Organic non-volatile memory device based on cellulose fibers
    Rananavare, Anuja P.
    Kadam, Sunil J.
    Prabhu, Shivadatta V.
    Chavan, Sachin S.
    Anbhule, Prashant V.
    Dongale, Tukaram D.
    MATERIALS LETTERS, 2018, 232 : 99 - 102
  • [32] Non-volatile memory device based on mobile protons in SiO2 thin films
    K. Vanheusden
    W. L. Warren
    R. A. B. Devine
    D. M. Fleetwood
    J. R. Schwank
    M. R. Shaneyfelt
    P. S. Winokur
    Z. J. Lemnios
    Nature, 1997, 386 : 587 - 589
  • [33] Device state recovery in non-volatile main memory systems
    Ohmura, R
    Yamasaki, N
    Anzai, Y
    27TH ANNUAL INTERNATIONAL COMPUTER SOFTWARE AND APPLICATIONS CONFERENCE, PROCEEDINGS, 2003, : 16 - 21
  • [34] Fabrication of micropatterned ferroelectric gamma poly(vinylidene fluoride) film for non-volatile polymer memory
    Kang, Seok Ju
    Bae, Insung
    Choi, Ji-Hyuk
    Park, Youn Jung
    Jo, Pil Sung
    Kim, Yuna
    Kim, Kap Jin
    Myoung, Jae-Min
    Kim, Eunkyoung
    Park, Cheolmin
    JOURNAL OF MATERIALS CHEMISTRY, 2011, 21 (11) : 3619 - 3624
  • [35] Radiation effects in thin-film ferroelectric PZT for non-volatile memory applications in microelectronics
    Leray, JL
    Musseau, O
    Paillet, P
    Autran, JL
    Sodi, D
    Coic, YM
    JOURNAL DE PHYSIQUE III, 1997, 7 (06): : 1227 - 1243
  • [36] Efficient non-volatile memory based on SiOx thin film fabricated on transparent ITO substrate
    Laishram, Rubila
    Alam, Mir Waqas
    Al-Othoum, Mohd Al Saleh
    Singh, Naorem Khelchand
    APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 2024, 130 (09):
  • [37] Organic Non-volatile Memory Devices Based on a Ferroelectric Polymer
    Kalbitz, R.
    Fruebing, P.
    Gerhard, R.
    Taylor, D. M.
    2011 14TH INTERNATIONAL SYMPOSIUM ON ELECTRETS (ISE), 2011, : 207 - +
  • [38] Tunable Non-Volatile Analog Resistive Memory and Its Application in AI
    Abunahla, Heba
    Halawani, Yasmin
    Mohammad, Baker
    Alazzam, Anas
    2020 IEEE 63RD INTERNATIONAL MIDWEST SYMPOSIUM ON CIRCUITS AND SYSTEMS (MWSCAS), 2020, : 464 - 467
  • [39] Evaluation methodology of thin dielectrics for non-volatile memory application
    Ghidini, G
    Brazzelli, D
    MICROELECTRONICS RELIABILITY, 2002, 42 (9-11) : 1473 - 1480
  • [40] Phase change thin films for non-volatile memory applications
    Lotnyk, A.
    Behrens, M.
    Rauschenbach, B.
    NANOSCALE ADVANCES, 2019, 1 (10): : 3836 - 3857
12345