In Situ Unveiling of the Resistive Switching Mechanism of Halide Perovskite-Based Memristors

The organic–inorganic halide perovskite has become one of the most promising candidates for next-generation memory devices, i.e. memristors, with excellent performance and solution-processable preparation. Yet, the mechanism of resistive switching in perovskite-based memristors remains ambiguous due...

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Veröffentlicht in:	The journal of physical chemistry letters 2024-03, Vol.15 (9), p.2453-2461
Hauptverfasser:	Luo, Hongqiang, Lu, Lihua, Zhang, Jing, Yun, Yikai, Jiang, Sijie, Tian, Yuanyuan, Guo, Zhongli, Zhao, Shanshan, Wei, Wenjie, Li, Wenfeng, Hu, Beier, Wang, Rui, Li, Shaoqun, Chen, Mengyu, Li, Cheng
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Schlagworte:	Physical Insights into Materials and Molecular Properties
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creator	Luo, Hongqiang Lu, Lihua Zhang, Jing Yun, Yikai Jiang, Sijie Tian, Yuanyuan Guo, Zhongli Zhao, Shanshan Wei, Wenjie Li, Wenfeng Hu, Beier Wang, Rui Li, Shaoqun Chen, Mengyu Li, Cheng
description	The organic–inorganic halide perovskite has become one of the most promising candidates for next-generation memory devices, i.e. memristors, with excellent performance and solution-processable preparation. Yet, the mechanism of resistive switching in perovskite-based memristors remains ambiguous due to a lack of in situ visualized characterization methods. Here, we directly observe the switching process of perovskite memristors with in situ photoluminescence (PL) imaging microscopy under an external electric field. Furthermore, the corresponding element composition of conductive filaments (CFs) is studied, indicating that the metallic CFs with respect to the activity of the top electrode are essential for device performance. Finally, electrochemical impedance spectroscopy (EIS) is conducted to reveal that the transition of ion states is associated with the formation of metallic CFs. This study provides in-depth insights into the switching mechanism of perovskite memristors, paving a pathway to develop and optimize high-performance perovskite memristors for large-scale applications.
doi_str_mv	10.1021/acs.jpclett.3c03558
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Phys. Chem. Lett</addtitle><description>The organic–inorganic halide perovskite has become one of the most promising candidates for next-generation memory devices, i.e. memristors, with excellent performance and solution-processable preparation. Yet, the mechanism of resistive switching in perovskite-based memristors remains ambiguous due to a lack of in situ visualized characterization methods. Here, we directly observe the switching process of perovskite memristors with in situ photoluminescence (PL) imaging microscopy under an external electric field. Furthermore, the corresponding element composition of conductive filaments (CFs) is studied, indicating that the metallic CFs with respect to the activity of the top electrode are essential for device performance. Finally, electrochemical impedance spectroscopy (EIS) is conducted to reveal that the transition of ion states is associated with the formation of metallic CFs. 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Phys. Chem. Lett</addtitle><date>2024-03-07</date><risdate>2024</risdate><volume>15</volume><issue>9</issue><spage>2453</spage><epage>2461</epage><pages>2453-2461</pages><issn>1948-7185</issn><eissn>1948-7185</eissn><abstract>The organic–inorganic halide perovskite has become one of the most promising candidates for next-generation memory devices, i.e. memristors, with excellent performance and solution-processable preparation. Yet, the mechanism of resistive switching in perovskite-based memristors remains ambiguous due to a lack of in situ visualized characterization methods. Here, we directly observe the switching process of perovskite memristors with in situ photoluminescence (PL) imaging microscopy under an external electric field. Furthermore, the corresponding element composition of conductive filaments (CFs) is studied, indicating that the metallic CFs with respect to the activity of the top electrode are essential for device performance. 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title	In Situ Unveiling of the Resistive Switching Mechanism of Halide Perovskite-Based Memristors
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