His primary areas of investigation include Polymer, Polymer solar cell, Optoelectronics, Energy conversion efficiency and Conjugated system. The concepts of his Polymer study are interwoven with issues in Active layer, Cathode, Chemical engineering and Polymer chemistry. His Polymer solar cell study combines topics from a wide range of disciplines, such as Organic solar cell, Acceptor and Nanotechnology.
His work on Diode as part of general Optoelectronics study is frequently connected to Fabrication, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. Fei Huang has included themes like Fullerene, Photocurrent, Perovskite, HOMO/LUMO and Band gap in his Energy conversion efficiency study. His research on Conjugated system also deals with topics like
His main research concerns Polymer, Polymer solar cell, Optoelectronics, Energy conversion efficiency and Conjugated system. His research in Polymer intersects with topics in Cathode, Photochemistry and Polymer chemistry. His Polymer solar cell study incorporates themes from Acceptor, Nanotechnology, Fullerene, Organic solar cell and Chemical engineering.
His Optoelectronics research is multidisciplinary, relying on both Layer, OLED and Photovoltaic system. His biological study spans a wide range of topics, including Passivation, Quantum dot, Perovskite, Solar cell and Band gap. His Conjugated system study combines topics in areas such as Thiophene, HOMO/LUMO, Polymerization and Monomer.
Polymer solar cell, Organic solar cell, Polymer, Chemical engineering and Energy conversion efficiency are his primary areas of study. His Polymer solar cell research incorporates elements of Fullerene, Acceptor, Active layer and Morphology. His Organic solar cell research is multidisciplinary, incorporating perspectives in Halogen, Interfacial engineering, Absorption, Optoelectronics and Engineering physics.
His work focuses on many connections between Optoelectronics and other disciplines, such as Perovskite, that overlap with his field of interest in Dopant. Fei Huang studies Conjugated system which is a part of Polymer. Fei Huang has researched Chemical engineering in several fields, including Ion, Cathode, Conjugated Polyelectrolytes and Doping.
Fei Huang spends much of his time researching Polymer solar cell, Optoelectronics, Organic solar cell, Polymer and Chemical engineering. His study with Polymer solar cell involves better knowledge in Energy conversion efficiency. Fei Huang combines subjects such as Perovskite, Acceptor, Spin coating and Active layer with his study of Optoelectronics.
The various areas that Fei Huang examines in his Organic solar cell study include Alkyl substitution, Photodiode, Photoelectric effect, Polymer chemistry and Near-infrared spectroscopy. His Polymer research is multidisciplinary, incorporating elements of Photochemistry and Nanotechnology. The Chemical engineering study combines topics in areas such as PEDOT:PSS, Molar absorptivity, Fluorinated polymer, Cathode and Iridium.
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Interface Engineering for Organic Electronics
Hong Ma;Hin-Lap Yip;Fei Huang;Fei Huang;Alex K.-Y. Jen.
Advanced Functional Materials (2010)
A series of simple oligomer-like small molecules based on oligothiophenes for solution-processed solar cells with high efficiency.
Bin Kan;Miaomiao Li;Qian Zhang;Feng Liu.
Journal of the American Chemical Society (2015)
Small-molecule solar cells with efficiency over 9%
Qian Zhang;Bin Kan;Feng Liu;Guankui Long.
Nature Photonics (2015)
Inverted polymer solar cells with 8.4% efficiency by conjugated polyelectrolyte
Tingbin Yang;Tingbin Yang;Ming Wang;Chunhui Duan;Xiaowen Hu.
Energy and Environmental Science (2012)
Nonfullerene Acceptor Molecules for Bulk Heterojunction Organic Solar Cells.
Guangye Zhang;Jingbo Zhao;Philip C. Y. Chow;Kui Jiang.
Chemical Reviews (2018)
Achieving over 16% efficiency for single-junction organic solar cells
Baobing Fan;Difei Zhang;Meijing Li;Wenkai Zhong.
Science China-chemistry (2019)
Improved high-efficiency organic solar cells via incorporation of a conjugated polyelectrolyte interlayer.
Jung Hwa Seo;Andrea Gutacker;Yanming Sun;Hongbin Wu.
Journal of the American Chemical Society (2011)
Donor–Acceptor Conjugated Polymer Based on Naphtho[1,2-c:5,6-c]bis[1,2,5]thiadiazole for High-Performance Polymer Solar Cells
Ming Wang;Xiaowen Hu;Peng Liu;Wei Li.
Journal of the American Chemical Society (2011)
Novel Electroluminescent Conjugated Polyelectrolytes Based on Polyfluorene
Fei Huang;Hongbin Wu;Deli Wang;Wei Yang.
Chemistry of Materials (2004)
Water/alcohol soluble conjugated polymers as highly efficient electron transporting/injection layer in optoelectronic devices
Fei Huang;Hongbin Wu;Yong Cao.
Chemical Society Reviews (2010)
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