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W4283389580 abstract "In order to imitate brain-inspired biological information processing systems, various neuromorphic computing devices have been proposed, most of which were prepared on rigid substrates and have energy consumption levels several orders of magnitude higher than those of biological synapses (∼10 fJ per spike). Herein, a new type of wearable organic ferroelectric artificial synapse is proposed, which has two modulation modes (optical and electrical modulation). Because of the high photosensitivity of organic semiconductors and the ultrafast polarization switching of ferroelectric materials, the synaptic device has an ultrafast operation speed of 30 ns and an ultralow power consumption of 0.0675 aJ per synaptic event. Under combined photoelectric modulation, the artificial synapse realizes associative learning. The proposed artificial synapse with ultralow power consumption demonstrates good synaptic plasticity under different bending strains. This provides new avenues for the construction of ultralow power artificial intelligence system and the development of future wearable devices." @default.
W4283389580 created "2022-06-25" @default.
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W4283389580 date "2022-06-23" @default.
W4283389580 modified "2023-10-16" @default.
W4283389580 title "Ultralow Power Wearable Organic Ferroelectric Device for Optoelectronic Neuromorphic Computing" @default.
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W4283389580 doi "https://doi.org/10.1021/acs.nanolett.2c01768" @default.
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