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Nonvolatile Perovskite‐Based Photomemory with a Multilevel Memory Behavior
Authors:Jung‐Yao Chen  Yu‐Cheng Chiu  Yen‐Ting Li  Chu‐Chen Chueh  Wen‐Chang Chen
Affiliation:1. Department of Chemical Engineering, National Taiwan University, Taipei, Taiwan;2. Department of Chemical Engineering and Materials Science, Yuan Ze University, Taoyuan, Taiwan
Abstract:Solution‐processable organic–inorganic hybrid perovskite materials with a wealth of exotic semiconducting properties have appeared as the promising front‐runners for next‐generation electronic devices. Further, regarding its well photoresponsibility, various perovskite‐based photosensing devices are prosperously developed in recent years. However, most exploited devices to date only transiently transduce the optical signals into electrical circuits while under illumination, which necessitates using additional converters to further store the output signals for recording the occurrence of light stimulation. Herein, a nonvolatile perovskite‐based floating‐gate photomemory with a multilevel memory behavior is demonstrated, for which a floating gate comprising a polymer matrix impregnated with perovskite nanoparticles is employed. Owing to the well photoresponsibility introduced by the embedded nanoparticles, the device is enabled to access multiple wavelength response and the functionalities of recording power/time‐dependent illumination under no vertical electrical field. Intriguingly, a nonvolatility of photorecording exceeding three months with a high On/Off current ratio over 104 can be achieved.
Keywords:floating‐gate photomemories  multilevel memories  perovskite nanoparticles  photosensitivity
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