A study of the electrochemical properties of conducting polymers for application in electrochemical capacitors

[1]  Shimshon Gottesfeld,et al.  Conducting polymers as active materials in electrochemical capacitors , 1994 .

[2]  J. L. Kaschmitter,et al.  The Aerocapacitor: An Electrochemical Double‐Layer Energy‐Storage Device , 1993 .

[3]  P. Pickup,et al.  Ionic and Electronic Conductivity of Poly‐(3‐methylpyrrole‐4‐carboxylic Acid) , 1992 .

[4]  A. Ivaska,et al.  Electrochemical study of poly(3-octylthiophene) film electrodes. Impedance of the polymer film semiconductor-electrolyte interface , 1992 .

[5]  J. Lee,et al.  A polyaniline and Nafion® composite film as a rechargeable battery , 1992 .

[6]  F. Chao,et al.  Study of the redox mechanism of poly-3-methylthiophene by impedance spectroscopy , 1992 .

[7]  J. Roncali Conjugated poly(thiophenes): synthesis, functionalization, and applications , 1992 .

[8]  B. Tilak,et al.  A model to characterize the impedance of electrochemical capacitors arising from reactions of the type Oad + n e− ⇇ Rad , 1992 .

[9]  E. Dalas Preparation of dry cells using polypyrrole and polyaniline composites , 1992 .

[10]  P. Pickup,et al.  Permselectivity of polypyrrole in acetonitrile , 1991 .

[11]  Ray H. Baughman,et al.  Conducting polymers in redox devices and intelligent materials systems , 1991 .

[12]  B. Conway Transition from “Supercapacitor” to “Battery” Behavior in Electrochemical Energy Storage , 1991 .

[13]  J. Roncali,et al.  Effects of electrosynthesis and cycling conditions on the cation-doping of poly[3-(4-fluoro-benzyloxyethyl)-thiophene] , 1991 .

[14]  R. Baughman,et al.  A hexagonal structure for alkali-metal doped poly (p-phenylene) , 1991 .

[15]  V. Pokhodenko,et al.  Effect of electrolyte nature on the electrochemical synthesis and doping of polyaniline and poly-3-phenylthiopene , 1991 .

[16]  D. Buttry,et al.  EQCM studies of film growth, redox cycling, and charge trapping of n-doped and p-doped poly(thiophene) , 1991 .

[17]  E. Dalas Novel dry cells constructed solely from polymers , 1991 .

[18]  John P. Ferraris,et al.  Narrow bandgap polymers: poly-4-dicyanomethylene-4H-cyclopenta[2,1-b;3,4-b′]dithiophene (PCDM) , 1991 .

[19]  G. Inzelt,et al.  Some problems connected with impedance analysis of polymer film electrodes: effect of the film thickness and the thickness distribution , 1991 .

[20]  Marco Musiani,et al.  Characterization of electroactive polymer layers by electrochemical impedance spectroscopy (EIS) , 1990 .

[21]  A. Hillman,et al.  Ion and solvent transfer accompanying polybithiophene doping and undoping , 1990 .

[22]  F. Ignatious,et al.  Kinetics of intercalation of tetraalkylammonium ions into polyacetylene , 1990 .

[23]  David Ofer,et al.  Potential dependence of the conductivity of highly oxidized polythiophenes, polypyrroles, and polyaniline: Finite windows of high conductivity , 1990 .

[24]  Murthy,et al.  Structural models for alkali-metal complexes of polyacetylene. , 1990, Physical Review B (Condensed Matter).

[25]  P. Novák,et al.  Electrochemical characterization of several conjugated polymers , 1990 .

[26]  M. Mastragostino,et al.  Electrochemical characterization of “n” doped polyheterocyclic conducting polymers—I. Polybithiophene , 1990 .

[27]  J. Roncali,et al.  Design and synthesis of polythiophene containing phenyl substituents , 1990 .

[28]  Jiirgen Heinze,et al.  Electronically conducting polymers , 1990 .

[29]  Laurence M. Peter,et al.  Microelectrode studies of fast switching in polyaniline films , 1989 .

[30]  D. D. Perlmutter,et al.  Characteristics of electrochemically synthesized polymer electrodes. VI: Kinetics of the process of polypyrrole oxidation , 1989 .

[31]  I. Rubinstein,et al.  Resistance-induced peaks in cyclic voltammograms of systems that can be switched electrochemically between an insulating and conductive state , 1989 .

[32]  Masaaki Sato,et al.  Electrochemical preparation and properties of poly(3-aryl-2,5-thienylene)s , 1989 .

[33]  D. P. Nairns,et al.  The application of electrochemistry to the measurement of selected intrinsic properties of polyacetylene , 1989 .

[34]  G. Pistoia,et al.  An impedance study of polyaniline films in aqueous and organic solutions , 1989 .

[35]  Susumu Tanaka,et al.  Structure and properties of polythiophene derivatives , 1989 .

[36]  R. Crooks,et al.  Potential dependence of the relative conductivity of poly(3-methylthiophene): electrochemical reduction in acetonitrile and liquid ammonia , 1989 .

[37]  T. Otero,et al.  Conductivity and capacity of polythiophene films: impedance study , 1988 .

[38]  T. Jow,et al.  Electrochemical Characteristics of Alkali‐Metal Doped Polyacetylene Electrodes , 1988 .

[39]  J. Rishpon,et al.  Electrochemical Impedance Analysis of Polyaniline Films on Electrodes , 1987 .

[40]  A. Underhill,et al.  Electrochemistry of polypyrrole films , 1987 .

[41]  G. Nauer,et al.  Kinetics of electrochemical n-doping of polyacetylene investigated by impedance and galvanostatic pulse measurements , 1987 .

[42]  N. Mermilliod,et al.  Overdoping and the capacitive effect in polypyrrole , 1987 .

[43]  Polyacetylene batteries -scaling up and problems , 1987 .

[44]  Yukio Kobayashi,et al.  (CH)x/(CH)x battery with unsymmetrical tetraalkyl ammonium salt , 1987 .

[45]  T. Nagatomo,et al.  All‐Plastic Batteries with Polyacetylene Electrodes , 1987 .

[46]  Michael Mehring,et al.  Electronic Properties of Conjugated Polymers III , 1987 .

[47]  S. Glarum,et al.  The Impedance of Poly(aniline) Electrode Films , 1987 .

[48]  Susumu Tanaka,et al.  Electrochemical preparation of highly anode-active poly(3-phenylthiophene) , 1987 .

[49]  T. Otero,et al.  Formation and modification of polypyrrole films on platinum electrodes by cyclic voltammetry and anodic polarization , 1987 .

[50]  Stephen W. Feldberg,et al.  On the Mechanism of Electrochemical Switching in Films of Polyaniline , 1987 .

[51]  A. Marwah,et al.  A High Yielding Synthesis 3-Arylthiophenes Under Phase-Transfer Conditions , 1987 .

[52]  J. Alonso-lopez,et al.  Electrochemical behaviour of polypyrrole films as secondary battery electrodes in LiClO4-propylene carbonate , 1987 .

[53]  N. Mermilliod,et al.  A Study of Chemically Synthesized Polypyrrole as Electrode Material for Battery Applications , 1986 .

[54]  Reversible electrochemical reduction of polyacetylene, (CH)x , 1986 .

[55]  Shacklette,et al.  Phase transformations and ordering in polyacetylene. , 1985, Physical review. B, Condensed matter.

[56]  F. Will Charge‐Discharge Behavior of Polyacetylene Electrodes , 1985 .

[57]  R. Baughman,et al.  Polyacetylene and Polyphenylene as Anode Materials for Nonaqueous Secondary Batteries , 1985 .

[58]  A. MacDiarmid,et al.  Energy Density, Power Density, and Polarization Studies of the Partially Oxidized (“p‐Doped”) Polyacetylene Cathode , 1985 .

[59]  F. Beck,et al.  Positive polyacetylene electrodes in aqueous electrolytes , 1985 .

[60]  R. L. Elsenbaumer,et al.  The Evolution of Structure During The Alkali Metal Doping of Polyacetylene and Poly(p-Phenylene) , 1985 .

[61]  D. Pletcher,et al.  The electrochemistry of conducting polymers , 1985 .

[62]  A. MacDiarmid,et al.  A Rechargeable Battery Employing a Reduced Polyacetylene Anode and a Titanium Disulfide Cathode , 1984 .

[63]  B. Scrosati,et al.  The Kinetics and Cyclability of Various Types of Polyacetylene Electrodes in Nonaqueous Lithium Cells , 1984 .

[64]  K. Yoshino,et al.  Optical and Electrical Properties of Electrochemically Doped n- and p-Type Polythiophenes , 1984 .

[65]  B. Scrosati,et al.  The Electrochemical Oxidation of Polyacetylene and Its Battery Applications , 1984 .

[66]  A. MacDiarmid,et al.  Electrochemistry of polyacetylene, (CH)x. Characteristics of the reduced polyacetylene electrode , 1984 .

[67]  K. Yoshino,et al.  Characteristics of Polythiophene Battery , 1983 .

[68]  T. Nagatomo,et al.  A Long-Lasting Polyacetylene Battery with High Energy Density , 1983 .

[69]  P. Pierański Jumping particle model. Period doubling cascade in an experimental system , 1983 .

[70]  M. Armand,et al.  Lithium intercalation in polyacetylene , 1983 .

[71]  J. Daou,et al.  Hydrogen relaxation in lutetium , 1983 .

[72]  Fu-Ren F. Fan,et al.  Polymer Films on Electrodes VII . Electrochemical Behavior at Polypyrrole‐Coated Platinum and Tantalum Electrodes , 1982 .

[73]  A. Heeger,et al.  Electrochemistry of polyacetylene, (CH)x. Characteristics of polyacetylene cathodes , 1982 .

[74]  J. A. Logan,et al.  Electrochemistry of conducting polypyrrole films , 1981 .

[75]  P. Nigrey,et al.  Lightweight Rechargeable Storage Batteries Using Polyacetylene, ( CH ) x as the Cathode‐Active Material , 1981 .

[76]  A. Diaz,et al.  Reversible electrochemical oxidation of (CH)x films , 1980 .

[77]  Robert A. Huggins,et al.  Application of A-C Techniques to the Study of Lithium Diffusion in Tungsten Trioxide Thin Films , 1980 .

[78]  H. Wynberg,et al.  Photochemistry of thiophenes. IV. Scope of arylthiophene rearrangements , 1967 .

[79]  G. Sauerbrey Verwendung von Schwingquarzen zur Wägung dünner Schichten und zur Mikrowägung , 1959 .

[80]  G. Sauerbrey,et al.  Use of quartz vibration for weighing thin films on a microbalance , 1959 .