Organic Conducting Polymers

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[2]  G. Wallace,et al.  Creating conductive structures for cell growth: growth and alignment of myogenic cell types on polythiophenes. , 2010, Journal of biomedical materials research. Part A.

[3]  G. Wallace,et al.  Polyterthiophene as an electrostimulated controlled drug release material of therapeutic levels of dexamethasone , 2010 .

[4]  Gordon G Wallace,et al.  Nanostructured aligned CNT platforms enhance the controlled release of a neurotrophic protein from polypyrrole. , 2010, Nanoscale.

[5]  Yinghong Xiao,et al.  Incorporation of collagen in poly(3,4-ethylenedioxythiophene) for a bifunctional film with high bio- and electrochemical activity. , 2010, Journal of biomedical materials research. Part A.

[6]  Gordon G Wallace,et al.  Conducting polymers, dual neurotrophins and pulsed electrical stimulation--dramatic effects on neurite outgrowth. , 2010, Journal of controlled release : official journal of the Controlled Release Society.

[7]  Gordon G Wallace,et al.  Electrical stimulation promotes nerve cell differentiation on polypyrrole/poly (2-methoxy-5 aniline sulfonic acid) composites , 2009, Journal of neural engineering.

[8]  Gordon G Wallace,et al.  Skeletal muscle cell proliferation and differentiation on polypyrrole substrates doped with extracellular matrix components. , 2009, Biomaterials.

[9]  H von Holst,et al.  Toxicity evaluation of PEDOT/biomolecular composites intended for neural communication electrodes , 2009, Biomedical materials.

[10]  Junsheng Yu,et al.  Choline oxidase immobilized into conductive poly(3,4-ethylenedioxythiophene) film for choline detection , 2008 .

[11]  G. Wallace,et al.  Galvanic coupling conducting polymers to biodegradable Mg initiates autonomously powered drug release , 2008 .

[12]  Donal D. C. Bradley,et al.  Fabrication of Highly Conductive Poly(3,4‐ethylenedioxythiophene) Films by Vapor Phase Polymerization and Their Application in Efficient Organic Light‐Emitting Diodes , 2007 .

[13]  Gordon G Wallace,et al.  Optimising the incorporation and release of a neurotrophic factor using conducting polypyrrole. , 2006, Journal of controlled release : official journal of the Controlled Release Society.

[14]  G. Wallace,et al.  Nanocomposites of Polyaniline/Poly(2-methoxyaniline-5-sulfonic acid) , 2006 .

[15]  K. Gleason,et al.  Oxidative Chemical Vapor Deposition of Electrically Conducting Poly(3,4-ethylenedioxythiophene) Films , 2006 .

[16]  G. Wallace,et al.  A simple means to immobilize enzyme into conducting polymers via entrapment , 2006 .

[17]  Jixiao Wang,et al.  Heparin-Controlled Growth of Polypyrrole Nanowires , 2006 .

[18]  Yun Lu,et al.  Polymerization of pyrrole on a polyelectrolyte hollow-capsule microreactor , 2006 .

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[21]  Albert Folch,et al.  Integration of topographical and biochemical cues by axons during growth on microfabricated 3-D substrates. , 2005, Experimental cell research.

[22]  G. Wallace,et al.  'Stuffed' conducting polymers , 2005 .

[23]  Benjamin G Keselowsky,et al.  Surface chemistry modulates focal adhesion composition and signaling through changes in integrin binding. , 2004, Biomaterials.

[24]  Gordon G Wallace,et al.  Electrochemical modulation of antigen-antibody binding. , 2004, Biosensors & bioelectronics.

[25]  G. Wallace,et al.  Vapor-phase polymerization of pyrrole and thiophene using iron (III) sulfonates as oxidizing agents , 2004 .

[26]  G. Wallace,et al.  Use of inherently conducting polymers and pulsed amperometry in flow injection analysis to detect oligonucleotides. , 2004, The Analyst.

[27]  John R. Reynolds,et al.  Electrochemical polymerization of poly(hydroxymethylated-3,4-ethylenedioxythiophene) (PEDOT-MeOH) on multichannel neural probes , 2004 .

[28]  G. Wallace,et al.  Polymerisation and characterisation of conducting polyaniline nanoparticle dispersions , 2004 .

[29]  G. Wallace,et al.  Redox-active conducting polymers incorporating ferrocenes: 2. Preparation and characterisation of polypyrroles containing propyl- and butyl-tethered [1.1]ferrocenophane , 2004 .

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[32]  G. Shi,et al.  Microstructure-mechanical properties relationship in conducting polypyrrole films , 2002 .

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[35]  G. Wallace,et al.  Polypyrrole–heparin system for the separation of thrombin , 2002 .

[36]  S. Im,et al.  Electroconductive polymer nanoparticles preparation and characterization of PANI and PEDOT nanoparticles , 2002 .

[37]  G. Wallace,et al.  Electrohydrodynamic synthesis of polypyrrole coated polyurethane colloidal dispersions using the electrocatalyst Tiron , 2002 .

[38]  Gordon G. Wallace,et al.  Manipulating and Monitoring Biomolecular Interactions with Conducting Electroactive Polymers , 2002 .

[39]  P. Rannou,et al.  Effect of Plasticizing Dopants on Spectroscopic Properties, Supramolecular Structure, and Electrical Transport in Metallic Polyaniline , 2001 .

[40]  William E. Price,et al.  Synthesis, characterisation and ion transport studies on polypyrrole/deoxyribonucleic acid conducting polymer membranes , 2001 .

[41]  S. Im,et al.  Synthesis and characterization of polyaniline nanoparticles in SDS micellar solutions , 2001 .

[42]  L. Samuelson,et al.  Manipulating DNA Conformation Using Intertwined Conducting Polymer Chains , 2001 .

[43]  N. Oyama,et al.  Peroxidase-incorporated sulfonated polyaniline–polycation complexes for electrochemical sensing of H2O2 , 2001 .

[44]  P. Rannou,et al.  New counterion-plasticized polyaniline with improved mechanical and thermal properties : comparison with PANI-CSA , 2001 .

[45]  P. Lacaze,et al.  Role of surfactants in the electrosynthesis and the electrochemical and spectroscopic characteristics of poly(3-methoxythiophene) films in aqueous micellar media , 2001 .

[46]  G. Wallace,et al.  Electrohydrodynamic synthesis, characterisation and metal uptake studies on polypyrrole colloids stabilised by polyvinylphosphate dopant , 2000 .

[47]  G. Wallace,et al.  Characterisation of the topography and surface potential of electrodeposited conducting polymer films using atomic force and electric force microscopies , 2000 .

[48]  G. Wallace,et al.  Electrosynthesis of polyurethane-based core-shell PAn·(+)-HCSA colloids , 2000 .

[49]  C. Schmidt,et al.  Synthesis and characterization of polypyrrole-hyaluronic acid composite biomaterials for tissue engineering applications. , 2000, Journal of biomedical materials research.

[50]  P. Bartlett,et al.  The oxidation of β-nicotinamide adenine dinucleotide (NADH) at poly(aniline)-coated electrodes. Part II. Kinetics of reaction at poly(aniline)-poly(styrenesulfonate) composites , 2000 .

[51]  Mian Jiang,et al.  Toward Genolelectronics: Nucleic Acid Doped Conducting Polymers , 2000 .

[52]  Gordon G. Wallace,et al.  Incorporation of Erythrocytes into Polypyrrole to Form the Basis of a Biosensor to Screen for Rhesus (D) Blood Groups and Rhesus (D) Antibodies , 1999 .

[53]  Gordon G. Wallace,et al.  Electrochemical production of protein-containing polypyrrole colloids , 1999 .

[54]  M. Jouini,et al.  Improvement of the Electrosynthesis and Physicochemical Properties of Poly(3,4-ethylenedioxythiophene) Using a Sodium Dodecyl Sulfate Micellar Aqueous Medium , 1999 .

[55]  C. O. Yoon,et al.  The effect of low-temperature conditions on the electrochemical polymerization of polypyrrole films with high density, high electrical conductivity and high stability , 1999 .

[56]  G. Wallace,et al.  Polypyrrole/poly(2-methoxyaniline-5-sulfonic acid) polymer composite , 1998 .

[57]  Qi Hong,et al.  AFM studies of polypyrrole film surface morphology II. Roughness characterization by the fractal dimension analysis , 1998 .

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[59]  O. Sadik,et al.  Direct Electrochemical Immunosensor for Polychlorinated Biphenyls , 1998 .

[60]  Gordon G. Wallace,et al.  Pulsed-amperometric detection of urea in blood samples on a conducting polypyrrole-urease biosensor , 1997 .

[61]  P. Lacaze,et al.  Electropolymerization of bithiophene on Pt and Fe electrodes in an aqueous sodium dodecylsulfate (SDS) micellar medium , 1996 .

[62]  J. V. Bannister,et al.  A new conducting polymer glucose sensor based on polythianaphthene , 1995 .

[63]  P. West,et al.  IN-SITU AFM STUDY OF THE SURFACE-MORPHOLOGY OF POLYPYRROLE FILM , 1995 .

[64]  Geoffrey M. Spinks,et al.  Mechanism of electromechanical actuation in polypyrrole , 1995 .

[65]  T. Porter,et al.  Counterion and dopant induced effects on the structure of electropolymerized polyaniline thin films , 1995 .

[66]  Naoya Ogata,et al.  Reactive supramolecular assemblies of mucopolysaccharide, polypyrrole and protein as controllable biocomposites for a new generation of ‘intelligent biomaterials’ , 1994 .

[67]  G. Wallace,et al.  Determination of P-Cresol (and Other Phenolics) Using a Conducting Polymer Based Electro-Immunological Sensing System , 1994 .

[68]  G. Wallace,et al.  Characterising the chemical interactions that occur on polyaniline with inverse thin layer chromatography , 1994 .

[69]  Z. Mandić,et al.  The effect of supporting electrolyte on the electrochemical synthesis, morphology, and conductivity of polyaniline , 1994 .

[70]  T. Shimidzu,et al.  Chemical and electrochemical analyses of polyaniline prepared with FeCl3 , 1993 .

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[73]  G. Wallace,et al.  Doping-dedoping of polypyrrole: a study using current-measuring and resistance-measuring techniques , 1993 .

[74]  G. Wallace,et al.  Effect of polymer composition on the detection of electroinactive species using conductive polymers , 1993 .

[75]  Gordon G. Wallace,et al.  Pulse damperometric detection of proteins using antibody containing conducting polymers , 1993 .

[76]  M. Zagorska,et al.  Bithiophenes as starting monomers for polythiophene syntheses , 1993 .

[77]  S. Chen,et al.  Structure/properties of conjugated conductive polymers. 2. 3-Ether-substituted polythiophenes and poly(4-methylthiophenes) , 1993 .

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[79]  M. Leclerc,et al.  Design of new electroactive polybithiophene derivatives , 1993 .

[80]  G. Wallace,et al.  Ion exchange properties of polypyrrole , 1992 .

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[84]  Y. Ikenoue,et al.  Evaluation of electrochromic fast-switching behavior of self-doped conducting polymer , 1991 .

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[96]  K. Honda,et al.  Charge-controllable poly pyrrole/poly electrolyte composite membranes: Part III. Electrochemical deionization system constructed by anion-exchangeable and cation-exchangeable polypyrrole electrodes , 1988 .

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[112]  Stephen O'Leary,et al.  The effect of polypyrrole with incorporated neurotrophin-3 on the promotion of neurite outgrowth from auditory neurons. , 2007, Biomaterials.

[113]  Bruce Graham,et al.  Biologically plausible models of neurite outgrowth. , 2005, Progress in brain research.

[114]  P. Lacaze,et al.  Electrosynthesis and characterization of poly(3-methoxythiophene)–polybithiophene composite films prepared in micellar media on Pt and Fe substrates , 1999 .

[115]  Gordon G. Wallace,et al.  Electrofunctional polymers: their role in the development of new analytical systems , 1999 .

[116]  G. Wallace,et al.  Enzymatic sensor based on conducting polymer coatings on metallised membranes , 1998 .

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[118]  O A Sadik,et al.  Applications of electrochemical immunosensors to environmental monitoring. , 1996, Biosensors & bioelectronics.

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[122]  M. Freund,et al.  Anion-excluding polypyrrole films. , 1991, Talanta.

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[124]  H. Shinohara,et al.  Enzyme microsensor for glucose with an electrochemically synthesized enzyme-polyaniline film , 1988 .

[125]  B. Vincent,et al.  Colloidal dispersions of electrically conducting polypyrrole particles in various media , 1988 .

[126]  P. Ghosh,et al.  Towards chiral metals. Synthesis of chiral conducting polymers from optically active thiophene and pyrrole derivatives , 1988 .

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