Flexible Pyrene/Phenanthro[9,10‐ d ]imidazole‐Based Memristive Devices for Mimicking Synaptic Plasticity | Zendy

Ren Yi | Zendy; Chang Chih-Li | Zendy; Ting Li-Yu | Zendy; Zhou Li | Zendy; Mao Jing-Yu | Zendy; Zhang Shi-Rui | Zendy; Chou Ho-Hsiu | Zendy; Yang Jia-Qin | Zendy; Zhou Ye | Zendy; Han Su-Ting | Zendy

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Flexible Pyrene/Phenanthro[9,10‐ d ]imidazole‐Based Memristive Devices for Mimicking Synaptic Plasticity

Author(s) -

Ren Yi,

Chang Chih-Li,

Ting Li-Yu,

Zhou Li,

Mao Jing-Yu,

Zhang Shi-Rui,

Chou Ho-Hsiu,

Yang Jia-Qin,

Zhou Ye,

Han Su-Ting

Publication year - 2019

Publication title -

advanced intelligent systems

Language(s) - English

Resource type - Journals

ISSN - 2640-4567

DOI - 10.1002/aisy.201900010

Subject(s) - conductance , synaptic plasticity , imidazole , pyrene , materials science , resistive touchscreen , plasticity , annulene , memristor , nanotechnology , optoelectronics , physics , condensed matter physics , chemistry , electrical engineering , composite material , quantum mechanics , computational chemistry , receptor , stereochemistry , engineering , biochemistry , astrobiology

In article number 1900008 , Ho‐Hsiu Chou, Ye Zhou, Su‐Ting Han and co‐workers report an artificial organic synaptic device with bipolar resistive switching characteristics and bidirectional gradual conductance regulation. Bio‐inspired synaptic phenomena have been implemented and systematically investigated. The dependence of linear conductance tuning on various pulse parameters is revealed and interpreted by Butler‐Volmer equation.

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