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W2607036705 abstract "For biological synapses, high sensitivity is crucial for transmitting information quickly and accurately. Compared to biological synapses, memristive ones show a much lower sensitivity to electrical stimuli since much higher voltages are needed to induce synaptic plasticity. Yet, little attention has been paid to enhancing the sensitivity of synaptic devices. Here, electrochemical metallization memory cells based on lightly oxidized ZnS films are found to show highly controllable memristive switching with an ultralow SET voltage of several millivolts, which likely originates from a two-layer structure of ZnS films, i.e., the lightly oxidized and unoxidized layers, where the filament rupture/rejuvenation is confined to the two-layer interface region several nanometers in thickness due to different ion transport rates in these two layers. Based on such devices, an ultrasensitive memristive synapse is realized where the synaptic functions of both short-term plasticity and long-term potentiation are emulated by applying electrical stimuli several millivolts in amplitude, whose sensitivity greatly surpasses that of biological synapses. The dynamic processes of memorizing and forgetting are mimicked through a 5 × 5 memristive synapse array. In addition, the ultralow operating voltage provides another effective solution to the relatively high energy consumption of synaptic devices besides reducing the operating current and pulse width." @default.
W2607036705 created "2017-04-28" @default.
W2607036705 creator A5004910186 @default.
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W2607036705 creator A5074369043 @default.
W2607036705 creator A5075987263 @default.
W2607036705 date "2017-04-11" @default.
W2607036705 modified "2023-10-14" @default.
W2607036705 title "Ultrasensitive Memristive Synapses Based on Lightly Oxidized Sulfide Films" @default.
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W2607036705 doi "https://doi.org/10.1002/adma.201606927" @default.
W2607036705 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28397309" @default.
W2607036705 hasPublicationYear "2017" @default.
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