Polysaccarides-based gels and solid-state electronic devices with memresistive properties: Synergy between polyaniline electrochemistry and biology

A new architecture of organic memristive device is proposed with a double-layered polyelectrolyte, one of which is a biological system that alone drives the memristive behavior. In the device the Physarum polycephalum was used as living organism, the polyaniline as conducting polymer for the source-...

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Bibliographic Details
Published in:AIP advances 2016-11, Vol.6 (11), p.111302-111302-8
Main Authors: Cifarelli, Angelica, Berzina, Tatiana, Parisini, Antonella, Erokhin, Victor, Iannotta, Salvatore
Format: Article
Language:English
Subjects:
Biocompatibility
Chitosan
Conducting polymers
Current voltage characteristics
Electrical resistivity
Electrochemistry
Electronic devices
Gels
Interlayers
Methylation
Molds
Pectin
Polyanilines
Polyelectrolytes
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Summary:A new architecture of organic memristive device is proposed with a double-layered polyelectrolyte, one of which is a biological system that alone drives the memristive behavior. In the device the Physarum polycephalum was used as living organism, the polyaniline as conducting polymer for the source-drain channel. The key choice for the device functioning was the interposition of a biocompatible solid layer between polyaniline and living organism, that must result both electrochemically inert and able to preserve a good electrical conductivity of the polyaniline, notwithstanding the alkaline pH environment required for the surviving of living being, by avoiding strong acids. Pectin with a high degree of methylation and chitosan were tested as interlayer, but only the first one satisfied the essential requirements. It was demonstrated that only when the living organism was integrated in the device, the current-voltage characteristics showed the hysteretic rectifying trends typical of the memristive devices, which however disappeared if the Physarum polycephalum switched to its sclerotic state. The mould resulted to survive a series of at least three cycles of voltage-current measurements carried out in sequence.
ISSN:2158-3226
2158-3226
DOI:10.1063/1.4966559