Fundamental study of artificial synaptic model

An artificial synaptic model was constructed by assembling an actuator and a sensor. The actuator was consist of a square pipe cell with two carbon electrodes. The actuator was filled with acrylic acid gel microparticles swelled with glucose solution which were shrunken under an electric field. The...

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Veröffentlicht in:	Journal of Advanced Science 1997/06/30, Vol.9(1-2), pp.91-92
Hauptverfasser:	OHTA, Yoshihisa, SETO, Masaya, IWAMOTO, Kazutoshi, YODA, Kentaro
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuator Artificial synaptic model Glucose sensor
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creator	OHTA, Yoshihisa SETO, Masaya IWAMOTO, Kazutoshi YODA, Kentaro
description	An artificial synaptic model was constructed by assembling an actuator and a sensor. The actuator was consist of a square pipe cell with two carbon electrodes. The actuator was filled with acrylic acid gel microparticles swelled with glucose solution which were shrunken under an electric field. The sensor was a glucose sensor which was constructed by combining an oxygen electrode with an immobilized glucose oxidase membrane. The out put current of glucose sensor in the synaptic model was observed under the application of DC field to the actuator. The amount of glucose released from the actuator increased time-dependently with increasing voltage above 5V, however, little release was observed below 5V.
doi_str_mv	10.2978/jsas.9.91
format	Article
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subjects	Actuator Artificial synaptic model Glucose sensor
title	Fundamental study of artificial synaptic model
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