Electrochemical synthesis of layer-by-layer reduced graphene oxide sheets/polyaniline nanofibers composite and its electrochemical performance
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Polyaniline has received much attention among conductive polymers, and extensive research has been done on it in both its native and functionalized forms. This is due to the ease with which polyaniline and its composites can be made. Polyaniline is considered as one of the most explored conducting polymer due to is unique properties. This article explains the methods of synthesis of polyaniline and also focuses the various applications of polyanilines in the field of conducting polymer.
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Abstract Mechanical treatment of polymers produces surface cations and anions which, as demonstrated here for the first time, can drive chemical reactions. In particular, it is shown that such a mechanical treatment transforms nonconductive polyaniline into its conductive form. These results provide a mechanical means of patterning conductive polymers and also coating small polymer objects with conductive polyaniline films preventing accumulation of static electricity.
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Characteristic feature and applications of conducting polymers such as polyaniline, polypyrrole and polythiophene derivatives are described. Especially polyaniline is the most promising conducting polymer due to its environmental stability and adequate level of conductivity. The latest progress on the fabrication of polyaniline and its blends has attracted an enormous industrial interests. Composites and blends of polyaniline with several conventional plastics for use in plastic battery, antistatic coating, electromagnetic shielding, artificial muscle, corrosion protection, microwave absorption, aerospace and related purposes have been produced and displayed by various industries.
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Abstract This article deals with the microlevel structure of the electronically conductive polymer, polyaniline, on the basis of the conducting islands model of Epstein et al. The paper presents, for the first time, TEM pictures of the microlevel structure of heavily doped polyaniline, possibly showing the conducting islands in the material. © 1994 John Wiley & Sons, Inc.
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Abstract Mechanical treatment of polymers produces surface cations and anions which, as demonstrated here for the first time, can drive chemical reactions. In particular, it is shown that such a mechanical treatment transforms nonconductive polyaniline into its conductive form. These results provide a mechanical means of patterning conductive polymers and also coating small polymer objects with conductive polyaniline films preventing accumulation of static electricity.
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Polyaniline(PANI) is one of the most intensively researched conductive polymer materials.The structure,characteristic and several kinds of synthesis methods about PANI are describes in the paper;The methods of doping and applications about PANI are introduced.
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Our contribution focuses on a correlative study of polyaniline (PANI) electropolymerisation and UV/VIS spectroscopy. PANI was prepared via electro-oxidation using a potentiodynamic method on commercial gold screen-printed electrodes (Au-SPE). By using an in-situ spectroelectrochemical method, the development of the polymer was observed from monomer, monomer oxidation to final polymer formation and its transformations between the oxidation forms. The results confirm the spontaneous doping of the polymer during the polymerisation, the instability of leucoemeraldine form in air and its two-stage oxidation to emeraldine form. The final conductive PANI deposited on Au-SPE will be used as sensor element for the detection of toxic organic compounds.
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