用于高可靠性和均匀性的有机柔性忆阻器中导电细丝生长的界面触发

Interfacial Triggering of Conductive Filament Growth in Organic Flexible Memristor for High Reliability and Uniformity.

作者信息

Lee Sin-Hyung, Park Hea-Lim, Kim Min-Hoi, Kang Sujie, Lee Sin-Doo

机构信息

School of Electrical Engineering , Seoul National University , 1 Gwanak-ro , Gwanak-ku, Seoul 08826 , Republic of Korea.

Department of Creative Convergence Engineering , Hanbat National University , Yuseong-ku, Daejeon 305-719 , Republic of Korea.

出版信息

ACS Appl Mater Interfaces. 2019 Aug 21;11(33):30108-30115. doi: 10.1021/acsami.9b10491. Epub 2019 Aug 12.

DOI:10.1021/acsami.9b10491

PMID:31364349

Abstract

We demonstrate the physical pictures of the localization of the conductive filaments (CFs) growth in flexible electrochemical metallization (ECM) memristors through an interfacial triggering (IT) into the polymer electrolyte. The IT sites (ITSs), capable of controlling the pathways of the CF growth, are formed at the electrode-polymer interfaces via the Ostwald ripening at low temperatures (below 230 °C). The injection and migration of metal ions and the resultant CF growth are found to be effectively controlled through the ITSs with the local electric field enhancement. The reliability, uniformity, and switching voltage of the device are much improved by the presence of the ITSs. Our flexible ECM memristor exhibits a high mechanical flexibility and a stable memory performance under repeated bending deformations.

摘要

我们通过向聚合物电解质中进行界面触发（IT），展示了柔性电化学金属化（ECM）忆阻器中导电细丝（CFs）生长定位的物理图像。能够控制CF生长路径的IT位点（ITSs），是在低温（低于230°C）下通过奥斯特瓦尔德熟化在电极 - 聚合物界面处形成的。发现通过具有局部电场增强的ITSs可以有效地控制金属离子的注入和迁移以及由此产生的CF生长。ITSs的存在大大提高了器件的可靠性、均匀性和开关电压。我们的柔性ECM忆阻器在反复弯曲变形下表现出高机械柔韧性和稳定的记忆性能。

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用于高可靠性和均匀性的有机柔性忆阻器中导电细丝生长的界面触发

Interfacial Triggering of Conductive Filament Growth in Organic Flexible Memristor for High Reliability and Uniformity.

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