A Biologically Interfaced Evolvable Organic Pattern Classifier

Jennifer Y. Gerasimov; Deyu Tu; Vivek Hitaishi; Padinhare Cholakkal Harikesh; Chi‐Yuan Yang; Tobias Abrahamsson; Meysam Rad; Mary J. Donahue; Malin Silverå Ejneby; Magnus Berggren; Robert Forchheimer; Simone Fabiano

doi:10.1002/advs.202207023

Advanced Science (May 2023)

A Biologically Interfaced Evolvable Organic Pattern Classifier

Jennifer Y. Gerasimov,
Deyu Tu,
Vivek Hitaishi,
Padinhare Cholakkal Harikesh,
Chi‐Yuan Yang,
Tobias Abrahamsson,
Meysam Rad,
Mary J. Donahue,
Malin Silverå Ejneby,
Magnus Berggren,
Robert Forchheimer,
Simone Fabiano

Affiliations

Jennifer Y. Gerasimov: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Deyu Tu: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Vivek Hitaishi: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Padinhare Cholakkal Harikesh: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Chi‐Yuan Yang: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Tobias Abrahamsson: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Meysam Rad: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Mary J. Donahue: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Malin Silverå Ejneby: Department of Biomedical Engineering Linköping University Linköping SE‐581 83 Sweden
Magnus Berggren: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden
Robert Forchheimer: Department of Electrical Engineering Linköping University Linköping SE‐581 83 Sweden
Simone Fabiano: Laboratory of Organic Electronics Department of Science and Technology Linköping University Norrköping SE‐60174 Sweden

DOI: https://doi.org/10.1002/advs.202207023
Journal volume & issue: Vol. 10, no. 14
pp. n/a – n/a

Abstract

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Abstract Future brain–computer interfaces will require local and highly individualized signal processing of fully integrated electronic circuits within the nervous system and other living tissue. New devices will need to be developed that can receive data from a sensor array, process these data into meaningful information, and translate that information into a format that can be interpreted by living systems. Here, the first example of interfacing a hardware‐based pattern classifier with a biological nerve is reported. The classifier implements the Widrow–Hoff learning algorithm on an array of evolvable organic electrochemical transistors (EOECTs). The EOECTs’ channel conductance is modulated in situ by electropolymerizing the semiconductor material within the channel, allowing for low voltage operation, high reproducibility, and an improvement in state retention by two orders of magnitude over state‐of‐the‐art OECT devices. The organic classifier is interfaced with a biological nerve using an organic electrochemical spiking neuron to translate the classifier's output to a simulated action potential. The latter is then used to stimulate muscle contraction selectively based on the input pattern, thus paving the way for the development of adaptive neural interfaces for closed‐loop therapeutic systems.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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