2022 - Research.com Materials Science in Australia Leader Award
2022 - Research.com Chemistry in Australia Leader Award
His primary areas of investigation include Conductive polymer, Nanotechnology, Polypyrrole, Carbon nanotube and Composite material. His work carried out in the field of Conductive polymer brings together such families of science as Polyaniline, Chemical engineering, Polymer chemistry and Actuator. His Nanotechnology research is multidisciplinary, incorporating elements of Electroactive polymers, Oxide and Biofabrication.
His work deals with themes such as Biophysics, Cyclic voltammetry and Dopant, which intersect with Polypyrrole. His Carbon nanotube research is multidisciplinary, relying on both Electrical conductor, Carbon and Artificial muscle. In his study, Supercapacitor, Graphite and Lithium is inextricably linked to Graphene, which falls within the broad field of Composite material.
Gordon G. Wallace mainly focuses on Conductive polymer, Nanotechnology, Polymer, Polypyrrole and Chemical engineering. His work carried out in the field of Conductive polymer brings together such families of science as Electrochemistry, Cyclic voltammetry, Polymer chemistry, Electrolyte and Polyaniline. His studies deal with areas such as Polymerization, Aqueous solution and Monomer as well as Polymer chemistry.
His Nanotechnology research incorporates elements of Supercapacitor and Electrode. The various areas that Gordon G. Wallace examines in his Electrode study include Optoelectronics and Analytical chemistry. His studies in Polypyrrole integrate themes in fields like Inorganic chemistry and Membrane.
His primary areas of study are Nanotechnology, Electrode, Graphene, Chemical engineering and Electrochemistry. The Nanotechnology study combines topics in areas such as Tissue engineering, 3D bioprinting, 3D printing, Supercapacitor and Conductive polymer. His research integrates issues of Electrical impedance, Optoelectronics and Analytical chemistry in his study of Electrode.
Gordon G. Wallace combines subjects such as Oxide, Microelectrode and Composite number, Composite material, Carbon nanotube with his study of Graphene. Gordon G. Wallace studies Composite material, focusing on Polymer in particular. His Chemical engineering research is multidisciplinary, incorporating perspectives in Electrocatalyst and Catalysis.
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Processable aqueous dispersions of graphene nanosheets
Dan Li;Marc B. Müller;Scott Gilje;Richard B. Kaner.
Nature Nanotechnology (2008)
Carbon Nanotube Actuators
Ray H. Baughman;Changxing Cui;Anvar A. Zakhidov;Zafar Iqbal.
Mechanically Strong, Electrically Conductive, and Biocompatible Graphene Paper
Haiqun Chen;Marc B. Müller;Kerry J. Gilmore;Gordon G. Wallace.
Advanced Materials (2008)
Use of Ionic Liquids for π-Conjugated Polymer Electrochemical Devices
Wen Lu;Andrei G. Fadeev;Baohua Qi;Elisabeth Smela.
Use of ionic liquids for pi-conjugated polymer electrochemical devices.
Wen Lu;Andrei G Fadeev;Baohua Qi;Elisabeth Smela.
Artificial Muscles from Fishing Line and Sewing Thread
Carter S. Haines;Márcio D. Lima;Na Li;Geoffrey M. Spinks.
Conductive Electroactive Polymers: Intelligent Materials Systems
Gordon G. Wallace;Geoffrey M. Spinks;Leon A. P. Kane-Maguire;Peter Teasdale.
Conducting polymers for neural interfaces: challenges in developing an effective long-term implant.
Rylie A. Green;Nigel H. Lovell;Gordon G. Wallace;Laura A. Poole-Warren.
Electroactive conducting polymers for corrosion control
Geoffrey M. Spinks;Anton J. Dominis;Gordon G. Wallace;Dennis E. Tallman.
Journal of Solid State Electrochemistry (2002)
Electrochemical Properties of Graphene Paper Electrodes Used in Lithium Batteries
Caiyun Wang;Dan Li;Chee O. Too;Gordon G. Wallace.
Chemistry of Materials (2009)
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