Topic
Conductive polymer
About: Conductive polymer is a research topic. Over the lifetime, 21817 publications have been published within this topic receiving 692491 citations. The topic is also known as: intrinsically conducting polymer & ICP.
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01 Jan 2001
TL;DR: In this article, theoretical studies of electronic properties of conjugated polymers are presented, and recursive algorithms for conjunctive polymeric chains are proposed to compute the energy transfer in Doped Luminescent Molecular Organic Materials.
Abstract: Part I: Introduction.- Theoretical Studies of Electronic Properties of Conjugated Polymers.- Recursive Algorithms for Conjugated Polymeric Chains.- Photophysics of Conjugated Polymers.- Photoelectron Spectroscopy Studies on the Electronic and Chemical Structures of Conjugated Polymers.- Part II: Introduction.- Electronic States in Organic Molecular Crystals.- Charge Carrier Mobility in Organic Molecular Crystals.- Dielectric and Charge-Transfer Approaches to Excitons.- Excitons in Organic Based Multilayers.- Exitons and Energy Transfer in Doped Luminescent Molecular Organic Materials.
139 citations
TL;DR: In this paper, a poly(3,4-ethylenedioxythiophene) (PEDOT) was successfully electropolymerized using a purified 1-butyl-3-methylimidazolium tetrafluoroborate ([bmim][BF4]) as both the growth medium and the supporting electrolyte.
139 citations
TL;DR: In this article, it was shown that a network of metallic grains connected by resonance quantum tunneling has a Drude type response for both the high and low frequency regimes and behaves as a dielectric at intermediate frequency in agreement with experimental observations.
139 citations
TL;DR: In this article, a core-shell structure with PANI layers (50-70 nm) was shown to have a high specific capacitance of 322 F/g with a specific energy density of 22 W h/kg, about 12 times that of MWNTs.
139 citations
TL;DR: In this paper, a line patterning method is proposed to prepare patterns of conducting polymers by a process which is termed as "Line Patterning" and can be used to obtain inexpensive conductive polymer shapes/patterns.
Abstract: Since the initial discovery in 1977, that polyacetylene (CH)(x), now commonly known as the prototype conducting polymer, could be p- or n-doped either chemically or electrochemically to the metallic state, the development of the field of conducting polymers has continued to accelerate at an unexpectedly rapid rate and a variety of other conducting polymers and their derivatives have been discovered. Other types of doping are also possible, such as "photo-doping" and "charge-injection doping" in which no counter dopant ion is involved. One exciting challenge is the development of low-cost disposable plastic/paper electronic devices. Conventional inorganic conductors, such as metals, and semiconductors, such as silicon, commonly require multiple etching and lithographic steps in fabricating them for use in electronic devices. The number of processing and etching steps involved limits the minimum price. On the other hand, conducting polymers combine many advantages of plastics, for example, flexibility and processing from solution, with the additional advantage of conductivity in the metallic or semiconducting regimes; however, the lack of simple methods to obtain inexpensive conductive polymer shapes/patterns limit many applications. Herein is described a novel, simple, and cheap method to prepare patterns of conducting polymers by a process which we term, "Line Patterning".
139 citations