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Donor-acceptor-type poly[chalcogenoviologen-alt-triphenylamine] for synaptic biomimicking and neuromorphic computing

Zhao Zhizheng, Qiang Che, Kexin Wang, Mohamed E. El‐Khouly, Jiaxuan Liu, Yubin Fu, Bin Zhang, Yu Chen

2021iScience20 citationsDOIOpen Access PDF

Abstract

-triphenylamine] (PCVTPA) has been synthesized by direct coupling of chalcogeno-viologen as electron acceptor and 4-(bromomethyl)-N-(4-(bromo-methyl)phenyl)-N-phenylaniline as electron donor. The introduction of chalcogen atoms (S, Se, Te) into viologen scaffolds can greatly improve electrical conductive, electrochemical, and electrochromic properties of the materials when compared with the conventional viologens. Taking PTeVTPA as an example, the as-fabricated electronic device with a configuration of Al/PTeVTPA/ITO exhibits excellent multilevel storage and history-dependent memristive switching performance. Associated with the unique memristive behavior, the PTeVTPA-based device can not only be used to emulate the synaptic potentiation/depression, the human's learning and memorizing functions, and the transition from short-term synaptic plasticity to long-term plasticity but also carry out decimal arithmetic operations as well. This work will be expected to offer a train of new thought for constructing high-performance synaptic biomimicking and neuromorphic computing system in the near future.

Topics & Concepts

TriphenylamineNeuromorphic engineeringViologenElectrochromismMaterials scienceSynaptic plasticityComputer scienceNanotechnologyOptoelectronicsChemistryPhotochemistryArtificial neural networkPhysical chemistryMachine learningBiochemistryElectrodeReceptorAdvanced Memory and Neural ComputingConducting polymers and applicationsPhotoreceptor and optogenetics research
Donor-acceptor-type poly[chalcogenoviologen-alt-triphenylamine] for synaptic biomimicking and neuromorphic computing | Litcius