POTENTIAL-DEPENDENT CONDUCTIVITY OF CONDUCTING POLYMERS YIELDS OPPORTUNITIES FOR MOLECULE-BASED DEVICES - A MICROELECTROCHEMICAL PUSH-PULL AMPLIFIER BASED ON 2 DIFFERENT CONDUCTING POLYMER TRANSISTORS

Authors
MCCOY CH WRIGHTON MS
Citation
Ch. Mccoy et Ms. Wrighton, POTENTIAL-DEPENDENT CONDUCTIVITY OF CONDUCTING POLYMERS YIELDS OPPORTUNITIES FOR MOLECULE-BASED DEVICES - A MICROELECTROCHEMICAL PUSH-PULL AMPLIFIER BASED ON 2 DIFFERENT CONDUCTING POLYMER TRANSISTORS, Chemistry of materials, 5(7), 1993, pp. 914-916
Citations number
27
Categorie Soggetti
Chemistry Physical","Material Science
Journal title
Chemistry of materialsACNP
ISSN journal
08974756
Volume
5
Issue
7
Year of publication
1993
Pages
914 - 916
Database
ISI
SICI code
0897-4756(1993)5:7<914:PCOCPY>2.0.ZU;2-T
Abstract
Conducting polymers exhibit potential-dependent conductivity maximizin g at a partially oxidized state. The potential of maximum conductivity depends on the polymer and gives rise to interesting device possibili ties. The preparation and characterization of a microelectrochemical p ush-pull amplifier based on polyaniline and poly(3-phenylthiophene) ar e reported.