Yuping Dong focuses on Photochemistry, Luminescence, Photoluminescence, Intramolecular force and Polymer chemistry. His Photochemistry research is multidisciplinary, incorporating elements of Nanotechnology, Conjugated system, Detection limit, Common emitter and Quantum efficiency. Luminescence is a primary field of his research addressed under Optoelectronics.
His Photoluminescence study combines topics in areas such as Quantum yield and Grinding. Yuping Dong combines subjects such as Aggregation-induced emission, Molecule, Crystal and Light emission with his study of Intramolecular force. His research in Polymer chemistry intersects with topics in Derivative, Picric acid, Thermal stability and Polymer.
His primary areas of study are Photochemistry, Polymer chemistry, Polymer, Polymerization and Photoluminescence. His work deals with themes such as Pyrrole, Luminescence, Molecule, Aggregation-induced emission and Intramolecular force, which intersect with Photochemistry. His Polymer chemistry research focuses on Thermal stability and how it connects with Solubility.
Polymer is frequently linked to Light emission in his study. His Polymerization research incorporates themes from Cationic polymerization, Catalysis and Isocyanide. His work carried out in the field of Photoluminescence brings together such families of science as Quantum yield and Absorption spectroscopy.
His primary scientific interests are in Polymerization, Photochemistry, Polymer, Polymer chemistry and Phosphorescence. His biological study spans a wide range of topics, including Wavelength, Molecule, Aggregation-induced emission and Pyrrole. His studies deal with areas such as Stacking and Photoluminescence as well as Wavelength.
His Molecule research includes themes of Phenyl group and Intramolecular force. His Polymer chemistry research is multidisciplinary, relying on both Conjugated system, Reactivity, Furan and Imidazole. His research integrates issues of Luminescence, Singlet state and Doping in his study of Phosphorescence.
His main research concerns Phosphorescence, Nanotechnology, Photochemistry, Polymer and Polymerization. His research in Nanotechnology intersects with topics in Optical polymers, Luminescent polymers, Functional polymers and Covalent organic framework. His Photochemistry research is multidisciplinary, incorporating perspectives in Phenyl group, Intramolecular force and Pyrrole.
His studies in Pyrrole integrate themes in fields like Wavelength, Stacking, Quantum yield, Photoluminescence and Aqueous solution. He combines subjects such as Supramolecular polymers, Furan, Polymer chemistry and Arylene with his study of Polymer. His study in Polymer chemistry is interdisciplinary in nature, drawing from both Conjugated system, Biphenyl, Reactivity, Thermal stability and Monomer.
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Brightly Luminescent and Color-Tunable Colloidal CH3NH3PbX3 (X = Br, I, Cl) Quantum Dots: Potential Alternatives for Display Technology.
Feng Zhang;Haizheng Zhong;Cheng Chen;Xian-gang Wu.
ACS Nano (2015)
Synthesis, Light Emission, Nanoaggregation, and Restricted Intramolecular Rotation of 1,1-Substituted 2,3,4,5-Tetraphenylsiloles
Junwu Chen;Charles C. W. Law;Jacky W. Y. Lam;Yuping Dong.
Chemistry of Materials (2003)
Structural control of the photoluminescence of silole regioisomers and their utility as sensitive regiodiscriminating chemosensors and efficient electroluminescent materials.
Zhen Li;Yongqiang Dong;Baoxiu Mi;Youhong Tang.
Journal of Physical Chemistry B (2005)
A novel "turn-on" fluorescent chemosensor for the selective detection of Al3+ based on aggregation-induced emission.
Tianyu Han;Xiao Feng;Xiao Feng;Bin Tong;Jianbing Shi.
Chemical Communications (2012)
Tuning the Luminescence of Metal–Organic Frameworks for Detection of Energetic Heterocyclic Compounds
Yuexin Guo;Xiao Feng;Tianyu Han;Shan Wang.
Journal of the American Chemical Society (2014)
Protein detection and quantitation by tetraphenylethene-based fluorescent probes with aggregation-induced emission characteristics.
Hui Tong;Yuning Hong;Yongqiang Dong;Matthias Häussler.
Journal of Physical Chemistry B (2007)
High‐Rate Charge‐Carrier Transport in Porphyrin Covalent Organic Frameworks: Switching from Hole to Electron to Ambipolar Conduction
Xiao Feng;Xiao Feng;Lili Liu;Yoshihito Honsho;Akinori Saeki.
Angewandte Chemie (2012)
Photoelectric Covalent Organic Frameworks: Converting Open Lattices into Ordered Donor–Acceptor Heterojunctions
Long Chen;Ko Furukawa;Jia Gao;Atsushi Nagai.
Journal of the American Chemical Society (2014)
An ambipolar conducting covalent organic framework with self-sorted and periodic electron donor-acceptor ordering.
Xiao Feng;Long Chen;Yoshihito Honsho;Oraphan Saengsawang;Oraphan Saengsawang.
Advanced Materials (2012)
Hyperbranched Poly(phenylenesilolene)s: Synthesis, Thermal Stability, Electronic Conjugation, Optical Power Limiting, and Cooling-Enhanced Light Emission
Junwu Chen;Han Peng;Charles Chi Wang Law;Yuping Dong.
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