A Retina‐Inspired Optoelectronic Synapse Using Quantum Dots for Neuromorphic Photostimulation of Neurons

Author:

Balamur Ridvan1ORCID,Eren Guncem Ozgun2,Kaleli Humeyra Nur3,Karatum Onuralp1,Kaya Lokman1,Hasanreisoglu Murat3ORCID,Nizamoglu Sedat1ORCID

Affiliation:

1. Department of Electrical and Electronics Engineering Koç University Istanbul 34450 Türkiye

2. Department of Biomedical Science and Engineering Koç University Istanbul 34450 Türkiye

3. Research Center for Translational Medicine Koç University Istanbul 34450 Türkiye

Abstract

AbstractNeuromorphic electronics, inspired by the functions of neurons, have the potential to enable biomimetic communication with cells. Such systems require operation in aqueous environments, generation of sufficient levels of ionic currents for neurostimulation, and plasticity. However, their implementation requires a combination of separate devices, such as sensors, organic synaptic transistors, and stimulation electrodes. Here, a compact neuromorphic synapse that combines photodetection, memory, and neurostimulation functionalities all‐in‐one is presented. The artificial photoreception is facilitated by a photovoltaic device based on cell‐interfacing InP/ZnS quantum dots, which induces photo‐faradaic charge‐transfer mediated plasticity. The device sends excitatory post‐synaptic currents exhibiting paired‐pulse facilitation and post‐tetanic potentiation to the hippocampal neurons via the biohybrid synapse. The electrophysiological recordings indicate modulation of the probability of action potential firing due to biomimetic temporal summation of excitatory post‐synaptic currents. The results pave the way for the development of novel bioinspired neuroprosthetics and soft robotics and highlight the potential of quantum dots for achieving versatile neuromorphic functionality in aqueous environments.

Publisher

Wiley

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