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W2897370401 abstract "Abstract Motivated by the biological neuromorphic system with high degree of connectivity to process huge amounts of information, transistor‐based artificial synapses are expected to pave a way to overcome the von Neumann bottleneck for neuromorphic computing paradigm. Here, artificial flexible organic synaptic transistors capable of concurrently exhibiting signal transmission and learning functions are verified using C 60 /poly(methyl methacrylate) (PMMA) hybrid layer for the first time. C 60 trapping sites are doped in PMMA by facile solution process to form the hybrid structure. The flexible synaptic transistor exhibits a memory window of 2.95 V, a current on /current off ratio greater than 10 3 , program/erase endurance cycle over 500 times. In addition, comprehensive synaptic functions of biosynapse including the excitatory postsynaptic current with different duration time, pulse amplitudes and temperatures, paired‐pulse facilitation/depression, potentiation and depression of the channel conductance modulation, transition from short‐term potentiation to long‐term potentiation, and repetitive learning processes are successfully emulated in this synaptic three‐terminal device. The realization of synaptic devices based on C 60 with low operation voltage and controlled polarity of charge trapping is an important step toward future neuromorphic computing using organic electronics." @default.
W2897370401 created "2018-10-26" @default.
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W2897370401 date "2018-10-16" @default.
W2897370401 modified "2023-10-16" @default.
W2897370401 title "Gate‐Tunable Synaptic Plasticity through Controlled Polarity of Charge Trapping in Fullerene Composites" @default.
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W2897370401 cites W1926340497 @default.
W2897370401 cites W1951546042 @default.
W2897370401 cites W1957331510 @default.
W2897370401 cites W1974976857 @default.
W2897370401 cites W1982378370 @default.
W2897370401 cites W1988281217 @default.
W2897370401 cites W1990936281 @default.
W2897370401 cites W2018774711 @default.
W2897370401 cites W2022063252 @default.
W2897370401 cites W2023550200 @default.
W2897370401 cites W2030971074 @default.
W2897370401 cites W2032813453 @default.
W2897370401 cites W2032832574 @default.
W2897370401 cites W2034876082 @default.
W2897370401 cites W2035337939 @default.
W2897370401 cites W2038270404 @default.
W2897370401 cites W2049511526 @default.
W2897370401 cites W2053618584 @default.
W2897370401 cites W2067005477 @default.
W2897370401 cites W2069562046 @default.
W2897370401 cites W2071855849 @default.
W2897370401 cites W2071947829 @default.
W2897370401 cites W2087307768 @default.
W2897370401 cites W2094325813 @default.
W2897370401 cites W2101091847 @default.
W2897370401 cites W2109529551 @default.
W2897370401 cites W2110395205 @default.
W2897370401 cites W2112181056 @default.
W2897370401 cites W2112927743 @default.
W2897370401 cites W2117422822 @default.
W2897370401 cites W2133083344 @default.
W2897370401 cites W2145386755 @default.
W2897370401 cites W2157315373 @default.
W2897370401 cites W2158935809 @default.
W2897370401 cites W2162341456 @default.
W2897370401 cites W2162651880 @default.
W2897370401 cites W2162921217 @default.
W2897370401 cites W2180403843 @default.
W2897370401 cites W2191374967 @default.
W2897370401 cites W2232588983 @default.
W2897370401 cites W2320205721 @default.
W2897370401 cites W2324401052 @default.
W2897370401 cites W2325274567 @default.
W2897370401 cites W2328141678 @default.
W2897370401 cites W2334364695 @default.
W2897370401 cites W2489282301 @default.
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W2897370401 cites W2547516597 @default.
W2897370401 cites W2553105535 @default.
W2897370401 cites W2587353269 @default.
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W2897370401 doi "https://doi.org/10.1002/adfm.201805599" @default.
W2897370401 hasPublicationYear "2018" @default.
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