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    Flexible Robust and High‐Density FeRAM from Array of Organic Ferroelectric Nano‐Lamellae by Self‐Assembly

    New search for: Guo, Mengfan
    New search for: Jiang, Jianyong
    New search for: Qian, Jianfeng
    New search for: Liu, Chen
    New search for: Ma, Jing
    New search for: Nan, Ce‐Wen
    New search for: Shen, Yang

    Ferroelectric memories are endowed with high data storage density by nanostructure designing, while the robustness is also impaired. For organic ferroelectrics favored by flexible memories, low Curie transition temperature limits their thermal stability. Herein, a ferroelectric random access memory (FeRAM) is demonstrated based on an array of P(VDF‐TrFE) lamellae by self‐assembly. Written data shows enhanced thermal endurance up to 90 °C and undergoes 12 thermal cycles between 30 and 80 °C with little volatilization. The promoted thermal stability is attributed to pinning effect at interfaces between grain boundaries and lamellae, where charged domain walls and charged defects are coupled. These results provide a strategy for improving robustness of organic flexible FeRAMs, and reveal an attracting coupling effect between different phases of ferroelectric polymer.

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    Flexible Robust and High‐Density FeRAM from Array of Organic Ferroelectric Nano‐Lamellae by Self‐Assembly

    New search for: Guo, Mengfan
    New search for: Jiang, Jianyong
    New search for: Qian, Jianfeng
    New search for: Liu, Chen
    New search for: Ma, Jing
    New search for: Nan, Ce‐Wen
    New search for: Shen, Yang

    Ferroelectric memories are endowed with high data storage density by nanostructure designing, while the robustness is also impaired. For organic ferroelectrics favored by flexible memories, low Curie transition temperature limits their thermal stability. Herein, a ferroelectric random access memory (FeRAM) is demonstrated based on an array of P(VDF‐TrFE) lamellae by self‐assembly. Written data shows enhanced thermal endurance up to 90 °C and undergoes 12 thermal cycles between 30 and 80 °C with little volatilization. The promoted thermal stability is attributed to pinning effect at interfaces between grain boundaries and lamellae, where charged domain walls and charged defects are coupled. These results provide a strategy for improving robustness of organic flexible FeRAMs, and reveal an attracting coupling effect between different phases of ferroelectric polymer.

    Access

    Download

    Flexible Robust and High‐Density FeRAM from Array of Organic Ferroelectric Nano‐Lamellae by Self‐Assembly

    New search for: Guo, Mengfan
    New search for: Jiang, Jianyong
    New search for: Qian, Jianfeng
    New search for: Liu, Chen
    New search for: Ma, Jing
    New search for: Nan, Ce‐Wen
    New search for: Shen, Yang

    Ferroelectric memories are endowed with high data storage density by nanostructure designing, while the robustness is also impaired. For organic ferroelectrics favored by flexible memories, low Curie transition temperature limits their thermal stability. Herein, a ferroelectric random access memory (FeRAM) is demonstrated based on an array of P(VDF‐TrFE) lamellae by self‐assembly. Written data shows enhanced thermal endurance up to 90 °C and undergoes 12 thermal cycles between 30 and 80 °C with little volatilization. The promoted thermal stability is attributed to pinning effect at interfaces between grain boundaries and lamellae, where charged domain walls and charged defects are coupled. These results provide a strategy for improving robustness of organic flexible FeRAMs, and reveal an attracting coupling effect between different phases of ferroelectric polymer.

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    Download

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    Document information
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    Title:

    Flexible Robust and High‐Density FeRAM from Array of Organic Ferroelectric Nano‐Lamellae by Self‐Assembly

    Contributors:

    Guo, Mengfan (author) / Jiang, Jianyong (author) / Qian, Jianfeng (author) / Liu, Chen (author) / Ma, Jing (author) / Nan, Ce‐Wen (author) / Shen, Yang (author)

    Published in:

    Advanced Science ; 6

    Publication date:

    2019-03-01

    Size:

    9 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.201801931

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    ferroelectric random access memories (FeRAMs) , grain boundaries , thermal stability , self‐assembly , P(VDF‐TrFE)

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