His research links Charge carrier with Optoelectronics. Optics is often connected to Absorption (acoustics) in his work. His studies link Optics with Absorption (acoustics). Michael G. Debije integrates many fields in his works, including Composite material and Polymer. He conducts interdisciplinary study in the fields of Polymer and Composite material through his works. His work in Luminescence is not limited to one particular discipline; it also encompasses Optoelectronics. Organic chemistry and Photochemistry are two areas of study in which Michael G. Debije engages in interdisciplinary research. As part of his studies on Liquid crystal, he frequently links adjacent subjects like Liquid crystalline. Many of his studies on Liquid crystalline involve topics that are commonly interrelated, such as Liquid crystal.
His Nanotechnology research includes themes of Optoelectronics, Optics, Liquid crystal and Polymer, Composite material. Optoelectronics is frequently linked to Luminescence in his study. Michael G. Debije is involved in relevant fields of research such as Luminescence, Concentrator, Liquid crystal and Absorption (acoustics) in the field of Optics. Michael G. Debije integrates many fields in his works, including Composite material and Polymer. His Organic chemistry study frequently draws connections to adjacent fields such as Molecule. His study in Organic chemistry extends to Molecule with its themes. His Electrical engineering study frequently draws connections between adjacent fields such as Photovoltaic system. His Electrical engineering research extends to the thematically linked field of Photovoltaic system.
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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)
A chaotic self-oscillating sunlight-driven polymer actuator
Kamlesh Kumar;Christopher Knie;David Bléger;Mark A. Peletier.
Nature Communications (2016)
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)
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)
Tailoring Discotic Mesophases: Columnar Order Enforced with Hydrogen Bonds
Raluca I. Gearba;Matthias Lehmann;Jérémy Levin;Dimitri A. Ivanov.
Advanced Materials (2003)
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)
High charge-carrier mobility in pi-deficient discotic mesogens: design and structure-property relationship.
Matthias Lehmann;Matthias Lehmann;Gaël Kestemont;Rafael Gómez Aspe;Claudine Buess-Herman.
Chemistry: A European Journal (2005)
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