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Bioinspired tactile devices can effectively mimic and reproduce the functions of the human tactile system, presenting significant potential in the field of next‐generation wearable electronics. In particular, memristor‐based bionic tactile devices have attracted considerable attention due to their exceptional characteristics of high flexibility, low power consumption, and adaptability. These devices...
Numerous efforts for emulating organ systems comprised of multiple functional units have driven substantial advancements in bio‐realistic electronics and systems. The resistance change behavior observed in diffusive memristors shares similarities with the potential change in biological neurons. Here, the diffusive threshold switching phenomenon in Ag‐incorporated organometallic halide perovskites...
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