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Neuromorphic bioelectronics based on semiconducting polymers

Hae Rang Lee, Yousang Won, Joon Hak Oh

2021Journal of Polymer Science53 citationsDOI

Abstract

Abstract The recent development of neuromorphic devices with low power consumption and rapid response has been driven primarily by the growing demand for brain‐inspired computing in human‐like machines and human‐machine interfaces. Remarkable progress has been made in developing neuromorphic bioelectronics that combine neuromorphic devices with electronic sensors. In this review, we provide an overview of semiconducting polymer‐based neuromorphic devices and their applications in neuromorphic bioelectronics. We focus on recent advances in semiconducting polymer‐based three‐terminal artificial synapses that mimic neural communication behaviors. Various types of semiconducting polymers and synaptic platforms have been investigated, allowing significant improvement in their performance and expansion of their functionality. Proper selection of materials and device structures can help artificial sensory synapses to react to various external stimuli and to further modulate electrical signals. Advances in semiconducting polymer‐based neuromorphic bioelectronics will accelerate the commercialization of human–machine interfacial systems, including intelligent prosthetics and implantable diagnostic devices.

Topics & Concepts

Neuromorphic engineeringBioelectronicsNanotechnologyMemristorNeuroprostheticsMaterials scienceComputer scienceElectronic materialsComputer architectureElectrical engineeringArtificial neural networkEngineeringNeuroscienceArtificial intelligenceBiosensorBiologyAdvanced Memory and Neural ComputingConducting polymers and applicationsNeuroscience and Neural Engineering
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