His primary areas of study are OLED, Optoelectronics, Photochemistry, Electroluminescence and Diode. Chin-Ti Chen interconnects Carbazole, Light-emitting diode, Analytical chemistry, Thermal stability and Quantum efficiency in the investigation of issues within OLED. His research in Optoelectronics intersects with topics in Fluorescence and Near-infrared spectroscopy.
His Photochemistry research integrates issues from Fluorene, Quantum yield, Molecule and Photoluminescence. His research integrates issues of Dopant and Phosphorescence in his study of Electroluminescence. His studies examine the connections between Diode and genetics, as well as such issues in Non doped, with regards to Fluorescent materials.
The scientist’s investigation covers issues in Optoelectronics, OLED, Photochemistry, Electroluminescence and Phosphorescence. His Optoelectronics research incorporates themes from Organic solar cell and Anode. Chin-Ti Chen has researched OLED in several fields, including Doping, Dopant, Diode, Analytical chemistry and Quantum efficiency.
His study focuses on the intersection of Photochemistry and fields such as Solvatochromism with connections in the field of Nickel and Crystallography. His biological study spans a wide range of topics, including Blue light, Quantum yield, Fluorescence, Light-emitting diode and Photoluminescence. Chin-Ti Chen combines subjects such as Solution process, Iridium and Luminous efficacy with his study of Phosphorescence.
Chin-Ti Chen focuses on Optoelectronics, Energy conversion efficiency, Photochemistry, OLED and Organic solar cell. His study looks at the relationship between Optoelectronics and topics such as Anode, which overlap with Heterojunction. His Energy conversion efficiency research incorporates elements of Photovoltaics, Nanotechnology, Perovskite, HOMO/LUMO and Electrode.
His studies in Photochemistry integrate themes in fields like BODIPY, Stacking and Host material. His work carried out in the field of OLED brings together such families of science as Diode, Electroluminescence, Dopant and Phosphorescence. His Electroluminescence research is multidisciplinary, incorporating perspectives in Characterization, Quantum yield, Photoluminescence and Quantum efficiency.
His primary areas of investigation include Energy conversion efficiency, Perovskite, Thin film, Optoelectronics and Photoluminescence. His work deals with themes such as Photovoltaics, Nanotechnology, Work function, HOMO/LUMO and Active layer, which intersect with Energy conversion efficiency. As a member of one scientific family, Chin-Ti Chen mostly works in the field of Perovskite, focusing on Absorption spectroscopy and, on occasion, Electron mobility.
Chin-Ti Chen integrates several fields in his works, including Optoelectronics and Mesoscopic physics. His Photoluminescence research includes themes of OLED, Quantum yield, Electroluminescence and Dopant. The concepts of his OLED study are interwoven with issues in Wavelength, Diode, Molecular engineering and Common emitter.
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Evolution of Red Organic Light-Emitting Diodes: Materials and Devices
Chemistry of Materials (2004)
Organic Optical Limiter with a Strong Nonlinear Absorptive Response
J. W. Perry;K. Mansour;I.-Y. S. Lee;X.-L. Wu.
New Dopant and Host Materials for Blue-Light-Emitting Phosphorescent Organic Electroluminescent Devices
Shi-Jay Yeh;Min-Fei Wu;Chin-Ti Chen;Yi-Hwa Song.
Advanced Materials (2005)
One-dimensional coordination polymers: applications to material science
Chin Ti Chen;Kenneth S Suslick.
Coordination Chemistry Reviews (1993)
Red-emitting fluorenes as efficient emitting hosts for non-doped, organic red-light-emitting diodes
Chih-Long Chiang;Min-Fei Wu;De-Chang Dai;Yuh-Sheng Wen.
Advanced Functional Materials (2005)
Red Organic Light-Emitting Diodes with a Non-doping Amorphous Red Emitter
Wei-Ching Wu;Hsiu-Chih Yeh;Li-Hsin Chan;Chin-Ti Chen.
Advanced Materials (2002)
Optimization of high-performance blue organic light-emitting diodes containing tetraphenylsilane molecular glass materials.
Li-Hsin Chan;Rong-Ho Lee;Chia-Fen Hsieh;Hsiu-Chih Yeh.
Journal of the American Chemical Society (2002)
Highly Efficient Carbazole-π-Dimesitylborane Bipolar Fluorophores for Nondoped Blue Organic Light-Emitting Diodes†
Shin-Lei Lin;Li-Hsin Chan;Rong-Ho Lee;Ming-Yu Yen.
Advanced Materials (2008)
Readily synthesised arylamino fumaronitrile for non-doped red organic light-emitting diodes
Hsiu-Chih Yeh;Shi-Jay Yeh;Chin-Ti Chen.
Chemical Communications (2003)
Enhancement of aggregation-induced emission in dye-encapsulating polymeric micelles for bioimaging
Wen Chung Wu;Ching Yi Chen;Yanqing Tian;Sei Hum Jang.
Advanced Functional Materials (2010)
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