2017 - Member of the National Academy of Engineering For foundational discoveries and insights enabling the development of polymers with advanced functionality and performance.
2010 - Member of Academia Europaea
Georges Hadziioannou focuses on Polymer chemistry, Polymer, Copolymer, Chemical engineering and Optoelectronics. The Polymer chemistry study combines topics in areas such as Conjugated system, Polythiophene, Crystal structure and Monomer. The study incorporates disciplines such as Luminescence, Dimensionless quantity, Nanotechnology and Neutron scattering in addition to Polymer.
His Copolymer study integrates concerns from other disciplines, such as Fullerene, Polymerization and Adsorption. His Chemical engineering study combines topics in areas such as Polystyrene, Linear polymer and Phase. His research in Optoelectronics tackles topics such as Electroluminescence which are related to areas like Photoluminescence and Indium tin oxide.
His primary scientific interests are in Polymer, Copolymer, Polymer chemistry, Chemical engineering and Nanotechnology. He has included themes like Optoelectronics, Photorefractive effect, Fullerene and Molecule in his Polymer study. He focuses mostly in the field of Optoelectronics, narrowing it down to matters related to Electroluminescence and, in some cases, Photoluminescence.
His biological study spans a wide range of topics, including Lamellar structure, Conjugated system, Thin film, Self-assembly and Polystyrene. Georges Hadziioannou has researched Polymer chemistry in several fields, including PEDOT:PSS and Reversible addition−fragmentation chain-transfer polymerization, Monomer, Polymerization, Radical polymerization. The concepts of his Chemical engineering study are interwoven with issues in Micelle and Polymer solar cell.
Georges Hadziioannou mostly deals with Polymer, Copolymer, Chemical engineering, Nanotechnology and Thin film. Georges Hadziioannou studied Polymer and Nanoparticle that intersect with Ultrafast laser spectroscopy. His Copolymer research includes elements of Lamellar structure, Conjugated system, Polymer chemistry, Self-assembly and Analytical chemistry.
Georges Hadziioannou has included themes like Molar mass, Polymerization and Monomer in his Polymer chemistry study. His work on Perovskite is typically connected to Annealing as part of general Chemical engineering study, connecting several disciplines of science. His Thin film research incorporates elements of Layer, Composite material, Substrate, Microscopy and Band gap.
His main research concerns Polymer, Thin film, Conjugated system, Copolymer and Chemical engineering. In his work, he performs multidisciplinary research in Polymer and Petroleum product. His Thin film study incorporates themes from Optoelectronics, Nanophotonics, Refractive index and Microscopy.
Georges Hadziioannou combines subjects such as Carbazole, Polymer chemistry and Biochemical engineering with his study of Conjugated system. The various areas that Georges Hadziioannou examines in his Polymer chemistry study include Ramberg–Bäcklund reaction, Polymerization and Molar mass. Georges Hadziioannou interconnects Nanoring and Metamaterial in the investigation of issues within Copolymer.
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Semiconducting polymers: chemistry, physics and engineering
G Hadziioannou;P.F van Hutten.
Fullerene-oligophenylenevinylene hybrids: Synthesis, electronic properties, and incorporation in photovoltaic devices
J.F. Eckert;J.F. Nicoud;J.F. Nierengarten;S.G. Liu.
Journal of the American Chemical Society (2000)
Forces between surfaces of block copolymers adsorbed on mica
Georges. Hadziioannou;Sanjay. Patel;Steve. Granick;Matthew. Tirrell.
Journal of the American Chemical Society (1986)
Semiconducting Diblock Copolymers Synthesized by Means of Controlled Radical Polymerization Techniques
U. Stalmach;B. de Boer;C. Videlot;P.F.van Hutten.
Journal of the American Chemical Society (2000)
Molecular dynamics simulations of the structure and dynamics of confined polymer melts
I. Bitsanis;G. Hadziioannou.
Journal of Chemical Physics (1990)
Atomic scale friction between the muscovite mica cleavage plane and a tungsten tip
R. Erlandsson;G. Hadziioannou;C. M. Mate;G. M. McClelland.
Journal of Chemical Physics (1988)
Supramolecular self-assembly and opto-electronic properties of semiconducting block copolymers
Bert de Boer;Ulf Stalmach;Paul F. van Hutten;Christian Melzer.
Scanning Force Microscopy with Chemical Specificity: An Extensive Study of Chemically Specific Tip−Surface Interactions and the Chemical Imaging of Surface Functional Groups
E.W. van der Vegte;G Hadziioannou.
Indium contamination from the indium–tin–oxide electrode in polymer light‐emitting diodes
A. R. Schlatmann;D. Wilms Floet;A. Hilberer;F. Garten.
Applied Physics Letters (1996)
Segregation of block copolymers to interfaces between immiscible homopolymers
Kenneth R. Shull;Edward J. Kramer;Georges Hadziioannou;Wing Tang.
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