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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.


Papers
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PatentDOI
TL;DR: In this article, a method of patterning an organic device includes depositing a first organic functional layer over a device substrate to form a first intermediate structure, the first functional layer having a first function such as hole transport or electron transport.

215 citations

Journal ArticleDOI
TL;DR: In this paper, a review of polymer nanocomposites (PNCs) for the fabrication of electrochemical sensors, including DNA biosensors, immunosensors and aptamer sensors is presented.
Abstract: Due to their unique and fascinating properties, polymer nanocomposites (PNCs) have been extensively studied in recent years. PNCs can be synthesized in several different nanoscale forms with minimal effort, thus allowing the fabrication of various novel chemical and biological sensors. This review covers recent applications based on PNCs for the fabrication of electrochemical sensors, biosensors, including DNA biosensors, immunosensors, and aptamer sensors. To improve the sensor performance, nanocomposites have been reported in various combinations such as conductive polymers with graphene (Grp), carbon nanotubes (CNTs), and metal nanoparticles, which endow high electrical conductivity, effective surface area, and fast electron transfer rate.

215 citations

BookDOI
01 Jan 1993
TL;DR: In this paper, the chemical and electronic structure of metal/conjugated polymer interfaces was studied in a joint theoretical and experimental study, where the authors proposed a method for the separation of gases using conducting polymer films.
Abstract: Preface. Synthesis, properties and applications of perconjugated systems H. Naarmann. Functionalizations of conducting polymers by mesoscopically structural control and by molecular combination of reactive moiety T. Shimidzu, T. Iyoda, H. Segawa, M. Fujitsuka. Characterization and application of polypyrrole-coated textiles H.H. Kuhn. Potential applications of conducting polymer colloids S.P. Armes. Processing of polyanilines V.G. Kulkarni. Inclusion of conducting polymers in inorganic hosts: towards conducting nanostructures T. Bein, P. Enzel. The separation of gases using conducting polymer films B.R. Mattes, M.R. Anderson, H. Reiss, R.B. Kaner. Intrinsically conducting polymers: from fundamental to applied research E. Genies. Conjugated polymer light-emitting diodes A.R. Brown, N.C. Greenham, R.W. Gymer, K. Pichler, D.D.C. Bradley, R.H. Friend, P.L. Burn, A. Kraft, A.B. Holmes. Molecular engineering of organic semiconductors F. Garnier, F. Deloffre, A. Yassar, G. Horowitz, R. Hajlaoui. Blue electroluminescence with polyconjugated materials G. Leising. Organic multilayer-dye electroluminescent diodes: is there any difference with polymer LED? T. Tsutsui, S. Saito. The chemical and electronic structure of metal/conjugated polymer interfaces: a joint theoretical and experimental study R. Lazzaroni, C. Fredriksson, A. Calderone, J.L. Bredas, P. Dannetun, M. Boman, S. Stafstrom, W.R. Salaneck. Application of conducting polyanilines in computer manufacturing M. Angelopoulos. Conducting polymers for molecular electronics S. Roth, J. Anders, H.J. Byrne. Polyanilines: recent advances in processing and applications to welding of plastics A.J. Epstein, J.Joo, C.-Y. Wu, A. Benatar, C.F. Faisst Jr.,j. Zegarski, A.G. MacDiarmid. Electrochemomechanical and electrochemopositioning devices: artificial muscles T.F. Otero, J. Rodriguez. A highly thermostable aluminum solid electrolytic capacitor with an electroconducting-polymer electrolyte Y. Kudoh, M. Fukuyama, T. Kojima, N. Nanai, S. Yoshimura. Polymer based xerographic photoreceptors M.A. Abkowitz. Subject index.

215 citations

Journal ArticleDOI
TL;DR: In this article, a tin oxide-intercalated polyaniline (PANI) nanocomposite has been deposited at room temperature, through solution route technique, and the as-grown films were studied for some of the useful physicochemical properties.
Abstract: Thin films of tin oxide-intercalated polyaniline nanocomposite have been deposited at room temperature, through solution route technique. The as-grown films were studied for some of the useful physicochemical properties, making use of XRD, FTIR, SEM, etc. and optical methods. XRD studies showed peak broadening and the peak positions shift from standard values, indicating presence of tin oxide in nanoparticles form in the polyaniline (PANI) matrix. FTIR study shows presence of the Sn–O–Sn vibrational peak and characteristic vibrational peaks of PANI. Study of SEM micrograph revealed that the composite particles have irregular shape and size with micellar templates of PANI around them. AFM images show topographical features of the nanocomposite similar to SEM images but at higher resolution. Optical absorbance studies show shifting of the characteristics peaks for PANI, which may be due to presence of tin oxide in PANI matrix. On exposure to ammonia gas (100–500 ppm in air) at room temperature, it was found that the PANI film resistance increases, while that of the nanocomposite (PANI + SnO2) film decreases from the respective unexposed value. These changes on removal of ammonia gas are reversible in nature, and the composite films showed good sensitivity with relatively faster response/recovery time. © 2009 Elsevier B.V. All rights reserved.

214 citations

Journal ArticleDOI
23 May 2016-ACS Nano
TL;DR: The mixing of inorganic nanoparticles with the conducting polymer matrix forms products with extremely low thermal conductivities, which is a promising strategy for the realization of polymer based efficient thermoelectric applications.
Abstract: Tin selenide (SnSe) nanosheets (NSs) are prepared by hydrothermal lithium-intercalation and a subsequent exfoliation process from a SnSe ingot. Conducting polymer poly(3,4-ethylenedioxythiohene):poly(styrenesulfonate) (PEDOT:PSS)-based thermoelectric composites are fabricated with varying SnSe NSs content, and the thermoelectric properties of the composites are examined at 300 K. The exfoliated SnSe particles show thin two-dimensional sheet-like structures that are evenly distributed into the PEDOT:PSS matrix. The significantly enhanced power factor (S2·σ) of the SnSe NS/PEDOT:PSS composites with increasing SnSe NSs content can be explained by the potential difference at the interface between the SnSe and PEDOT:PSS. The fabricated SnSe NS/PEDOT:PSS composites show a maximum figure of merit (ZT) of 0.32 at a SnSe NSs loading of 20 wt %. The mixing of inorganic nanoparticles with the conducting polymer matrix forms products with extremely low thermal conductivities, which is a promising strategy for the rea...

213 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
2023347
2022701
2021738
2020845
2019942
2018934