Organic Transistor Paves Way for New Generations of Neuro-Inspired Computers

ScienceDaily (Jan. 29, 2010) — For the first time, CNRS(1) and CEA(2) researchers have developed a transistor that can mimic the main functionalities of a synapse(3). This organic transistor, based on pentacene(4) and gold nanoparticles and known as a NOMFET (Nanoparticle Organic Memory Field-Effect Transistor), has opened the way to new generations of neuro-inspired computers, capable of responding in a manner similar to the nervous system.

The study is published in the 22 January 2010 issue of the journal Advanced Functional Materials.

In the development of new information processing strategies, one approach consists in mimicking the way biological systems such as neuron networks operate to produce electronic circuits with new features. In the nervous system, a synapse is the junction between two neurons, enabling the transmission of electric messages from one neuron to another and the adaptation of the message as a function of the nature of the incoming signal (plasticity). For example, if the synapse receives very closely packed pulses of incoming signals, it will transmit a more intense action potential. Conversely, if the pulses are spaced farther apart, the action potential will be weaker.


(1) Institut d'Electronique, de Microélectronique et de Nanotechnologie (CNRS / Université Lille1 / Université de Valenciennes / Isen Recherche).

(2) Institut CEA LIST, dedicated to technological research on digital systems.

(3) The synapse designates a functional contact area that is established between two neurons, or between a neuron and another cell. It assures the conversion of an action potential triggered in the neuron in front of the cell, which transmits this signal to perform a function.

(4) Chemical compound (C22H14) of the family of polycyclic aromatic hydrocarbons, consisting of five linearly-fused benzene rings. This extended conjugation, together with a favorable crystal structure, is responsible for its properties as a good organic p-type (electron donor) semiconductor.

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