Recent developments in conducting polymers: applications for electrochemistry (original) (raw)

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2020, RSC Advances

Scientists have categorized conductive polymers as materials having strongly reversible redox behavior and uncommon combined features of plastics and metal.

Electrochemistry of Conducting Polymers—Persistent Models and New Concepts †

Jürgen Heinze, Bernardo Frontana-Uribe

Chemical Reviews, 2010

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The role of conductive polymers in advanced electrochemical technology

Stefania Panero, Stefano Passerini

Electrochimica Acta, 1994

The properties of selective examples of ionically conducting polymers are reported and discussed in view of their application in advanced design, rechargeable batteries and in laminated electrochromic devices.

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Advances in conductive polymers

European Polymer Journal, 1998

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Conducting Polymers: Concepts and Applications

William J A M E S sidis

Journal of Atomic, Molecular, Condensate and Nano Physics, 2018

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TOPICAL REVIEW: Conducting polymer-based nanostructurized materials: electrochemical aspects

Arunas Ramanavicius

Nanotechnology, 2005

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Conducting Polymers in the Fields of Energy, Environmental Remediation, and Chemical–Chiral Sensors

Marina Elizabeth Rincon G.

Chemical Reviews, 2018

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Electrochemical studies of heterocyclic conducting polymers

1992

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Mechanism of ionic and redox sensitivity of p-type conducting polymersPart 1. Theory

Johan Bobacka, Andrzej Lewenstam

Journal of Electroanalytical Chemistry, 1994

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The oligomeric approach – the electrochemistry of conducting polymers in the light of recent research

Peter Tschuncky

Journal of Solid State Electrochemistry, 1998

Electrochemical investigations on oligomeric model compounds (β-carotenoids) of polyacetylene varying the chain length in the range between 5 and 23 double bonds provide deeper insights into the redox properties of such systems. Furthermore, cyclic voltammetric studies of α,ω-diphenylpolyenes and phenylenevinylenes give clear evidence that the formation of the radical ions is followed by a rapid reversible dimerization between the oligomeric chains. The thermodynamic and kinetic parameters of the chemical reaction are presented. Applying these results to the properties of conducting polymers opens up new perspectives for interpreting charge storage and conductivity.

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Mechanism of ionic and redox sensitivity of p-type conducting polymers

Ari Ivaska, Andrzej Lewenstam

Journal of Electroanalytical Chemistry, 1994

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Special Issue: Conductive Polymers: Materials and Applications

Materials, 2020

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Metallic and non-metallic redox response of conducting polymers

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Conducting Polymers and their Applications

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Recent studies of heterocyclic and aromatic conducting polymers

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Electrochemically synthesised conducting polymeric materials for applications towards technology in electronics, optoelectronics and energy storage devices

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Materials Chemistry and Physics, 1999

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Mechanism of ionic and redox sensitivity of Part 2. Experimental study of polypyrrole p-type conducting polymers

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Conducting polymers-based electrochemical platforms: From biosensing to energy storage

Waldemar Marmisollé

Asociación Química Argentina, 2018

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Conductive Polymers: Electroplating of Organic Films

Schlesinger/Modern Electroplating 5E, 2011

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Tuning of Electronic Properties in Conducting Polymers

Collection of Czechoslovak Chemical Communications, 2001

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Conducting polymers in chemical sensors and arrays

Vladimir Mirsky

Analytica Chimica Acta, 2008

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Important aspects influencing stability of the electrochemical potential of conductive polymer-based electrodes

Tatiana Shishkanova

Journal of Materials Science, 2011

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Composite Material–Based Conducting Polymers for Electrochemical Sensor Applications: a Mini Review

BioNanoScience, 2020

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a Conducting polymers in chemical sensors and arrays

dishank santwani

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Conducting Polymers: Properties and Applications

Journal of Intelligent Material Systems and Structures, 1994

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Cyclic spectrovoltammetry: a new method to study the redox processes in conductive polymers

Synthetic Metals, 1992

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