Emulating the short-term plasticity of a biological synapse with a ruthenium complex-based organic mixed ionic-electronic conductor

Authors
Samuel ShinDae Cheol KangKIM, KEON HEEJeong, Yeon JooKim, Jae wookLee, Su younKwak, Joon YoungJongkil ParkGyu Weon HwangLEE, KYEONG SEOKPARK, JONG KEUKJian LiKim, In ho
Issue Date
2022-03
Publisher
ROYAL SOC CHEMISTRY
Citation
Materials Advances, v.3, no.6, pp.2827 - 2837
Abstract
Short-term plasticity (STP) is a phenomenon in the biological brain where the synaptic weight changes depending solely on the presynaptic activity in the biological brain. STP is an essential brain function for processing of short-term temporal information. Implementation of STP as an electronic device requires mimicking the dynamic behavior of calcium-induced neurotransmitters at presynaptic terminals. This study provides an organic mixed ionic-electronic conductor (OMIEC) memristor based on Ru(bpy)3(PF6)2 as an organic active layer to mimic the STP of a biological synapse. The behavior of the neurotransmitters was emulated through the drift and diffusion of mobile ions in the OMIEC active layer. The ion conductivity of the OMIEC memristor was tuned by adding the LiClO4 salt, which affects the short-term memory behavior. Specifically, our OMIEC memristor exhibited a timescale of paired-pulse facilitation decay similar to that of biological synapses with the addition of 2 wt% salt. Furthermore, the device containing 2 wt% LiClO4 showed similar recovery timescales to a biological synapse when 4 + 1 spikes were applied for emulating the short-term synaptic plasticity. Lastly, our OMIEC memristors were employed as the STP component of a SPICE simulation to modulate the spike-timing-dependent synaptic plasticity learning rule by combining with a non-volatile memristor. ? 2022 RSC
ISSN
2633-5409
URI
https://pubs.kist.re.kr/handle/201004/115517
DOI
10.1039/d1ma01078f
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KIST Article > 2022
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