His primary areas of study are Optoelectronics, Optics, Luminescent solar concentrator, Luminescence and Crystallography. His Optoelectronics research is multidisciplinary, incorporating elements of Polymer, Infrared and Reflector. His Liquid crystalline and Azobenzene study, which is part of a larger body of work in Polymer, is frequently linked to Green-light and Chaotic, bridging the gap between disciplines.
His Luminescent solar concentrator research includes themes of Quantum dot, Waveguide and Fluorescence. His work carried out in the field of Luminescence brings together such families of science as Refractive index and Phosphor. The Crystallography study combines topics in areas such as Stacking, Organic chemistry, Columnar phase and Discotic liquid crystal.
His primary scientific interests are in Optoelectronics, Liquid crystal, Luminescent solar concentrator, Optics and Luminescence. His study in Optoelectronics is interdisciplinary in nature, drawing from both Absorption and Fluorescence. He combines subjects such as Nanotechnology, Polymer, Photopolymer, Monomer and Chemical engineering with his study of Liquid crystal.
His Luminescent solar concentrator research incorporates elements of Photochemistry, Sunlight and Ray. His work on Layer expands to the thematically related Optics. His research in Luminescence intersects with topics in Light emission, Dichroic glass, Perylene, Refractive index and Phosphor.
His main research concerns Liquid crystal, Optoelectronics, Polymer, Composite material and Luminescence. The concepts of his Liquid crystal study are interwoven with issues in Nanotechnology, Acrylate, Chemical engineering, Oxetane and Azobenzene. His specific area of interest is Optoelectronics, where Michael G. Debije studies Luminescent solar concentrator.
His Luminescent solar concentrator study is focused on Optics in general. His Composite material study combines topics from a wide range of disciplines, such as Thin film and Anisotropy. His research in Luminescence tackles topics such as Absorption which are related to areas like Transmission, Thermal and Dichroic glass.
His scientific interests lie mostly in Liquid crystal, Polymer, Optoelectronics, Nanotechnology and Azobenzene. His work on Liquid crystalline as part of general Liquid crystal research is often related to Soft actuator and Flexography, thus linking different fields of science. Michael G. Debije conducts interdisciplinary study in the fields of Polymer and Fabrication through his research.
Michael G. Debije interconnects Polydimethylsiloxane, Polyethylene terephthalate and Photo responsive in the investigation of issues within Optoelectronics. His Nanotechnology study incorporates themes from Acrylate, Photonic metamaterial, Photonic crystal, Photopolymer and Oxetane. The study incorporates disciplines such as Viscoelasticity and Chromophore in addition to Azobenzene.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Thirty Years of Luminescent Solar Concentrator Research: Solar Energy for the Built Environment
MG Michael Debije;Ppc Paul Verbunt.
Advanced Energy Materials (2012)
Infrared regulating smart window based on organic materials
H Hitesh Khandelwal;Aphj Albert Schenning;MG Michael Debije.
Advanced Energy Materials (2017)
Charge transport properties in discotic liquid crystals: a quantum-chemical insight into structure-property relationships.
Vincent Lemaur;Demetrio A da Silva Filho;Veaceslav Coropceanu;Matthias Lehmann.
Journal of the American Chemical Society (2004)
Tetrachloro-substituted perylene bisimide dyes as promising n-type organic semiconductors: Studies on structural, electrochemical and charge transport properties
Zhijian Chen;Michael G. Debije;Tony Debaerdemaeker;Peter Osswald.
ChemPhysChem (2004)
Charge mobilities in organic semiconducting materials determined by pulse-radiolysis time-resolved microwave conductivity: π-bond-conjugated polymers versus π-π-stacked discotics
John M. Warman;Matthijs P. de Haas;Gerald Dicker;Ferdinand C. Grozema.
Chemistry of Materials (2004)
Functional Organic Materials Based on Polymerized Liquid‐Crystal Monomers: Supramolecular Hydrogen‐Bonded Systems
Dirk J. Broer;Cees M. W. Bastiaansen;Cees M. W. Bastiaansen;Michael G. Debije;Albertus P. H. J. Schenning.
Angewandte Chemie (2012)
Tailoring Discotic Mesophases: Columnar Order Enforced with Hydrogen Bonds
Raluca I. Gearba;Matthias Lehmann;Jérémy Levin;Dimitri A. Ivanov.
Advanced Materials (2003)
A chaotic self-oscillating sunlight-driven polymer actuator
Kamlesh Kumar;Christopher Knie;David Bléger;Mark A. Peletier.
Nature Communications (2016)
Monocrystalline silicon photovoltaic luminescent solar concentrator with 4.2% power conversion efficiency
L Desmet;Ajm Ras;de Dkg Dick Boer;MG Michael Debije.
Optics Letters (2012)
The optical and charge transport properties of discotic materials with large aromatic hydrocarbon cores
M. G. Debije;J. Piris;M. P. de Haas;J. M. Warman.
Journal of the American Chemical Society (2004)
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