His main research concerns Polymer solar cell, Polymer, Energy conversion efficiency, Optoelectronics and Polymer chemistry. His Polymer solar cell research includes themes of Conjugated system, Polymer blend, Acceptor and Quinoxaline. His Polymer study incorporates themes from Thiophene, Crystallinity, Fullerene and Band gap.
His Energy conversion efficiency research is multidisciplinary, incorporating perspectives in Open-circuit voltage, Layer, Nanotechnology, Exciton and Active layer. As a member of one scientific family, Ergang Wang mostly works in the field of Optoelectronics, focusing on Organic solar cell and, on occasion, Plasmonic solar cell, Quantum dot solar cell, Solar cell and Thin-film transistor. He combines subjects such as Photochemistry, Polyfluorene and Fill factor with his study of Polymer chemistry.
Ergang Wang focuses on Polymer, Polymer solar cell, Acceptor, Optoelectronics and Energy conversion efficiency. His studies deal with areas such as Band gap and Polymer chemistry as well as Polymer. Ergang Wang interconnects Side chain, Fullerene and Photochemistry in the investigation of issues within Polymer solar cell.
His studies in Acceptor integrate themes in fields like Thiophene, Absorption, Molecule, HOMO/LUMO and Crystallinity. The Optoelectronics study combines topics in areas such as Polymer blend and Electroluminescence. His research integrates issues of Open-circuit voltage and Nanotechnology in his study of Energy conversion efficiency.
Ergang Wang mainly investigates Polymer, Acceptor, Band gap, HOMO/LUMO and Polymer solar cell. His Polymer research is multidisciplinary, relying on both Thiophene, Fullerene, Absorption and Analytical chemistry. His studies deal with areas such as Side chain, Organic solar cell and Energy conversion efficiency as well as Acceptor.
His Energy conversion efficiency study integrates concerns from other disciplines, such as Crystallinity and Absorption spectroscopy. His study looks at the relationship between Band gap and topics such as Conjugated system, which overlap with Thermal stability. The various areas that he examines in his Polymer solar cell study include Copolymer, Morphology, Microstructure and Polymerization.
His primary areas of study are Energy conversion efficiency, Polymer, Polymer solar cell, HOMO/LUMO and Acceptor. His Energy conversion efficiency research is multidisciplinary, incorporating perspectives in Fullerene and Absorption spectroscopy. His Fullerene study incorporates themes from Chemical physics, Electron mobility, Molar absorptivity and Active layer.
His study in Crystallinity extends to Polymer solar cell with its themes. His work deals with themes such as Photochemistry, Absorption and Band gap, which intersect with HOMO/LUMO. Ergang Wang interconnects Conjugated system and Thermal stability in the investigation of issues within Photochemistry.
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High-performance polymer heterojunction solar cells of a polysilafluorene derivative
Ergang Wang;Li Wang;Linfeng Lan;Chan Luo.
Applied Physics Letters (2008)
An Easily Synthesized Blue Polymer for High‐Performance Polymer Solar Cells
Ergang Wang;Lintao Hou;Zhongqiang Wang;Stefan Hellström.
Advanced Materials (2010)
An Easily Accessible Isoindigo-Based Polymer for High-Performance Polymer Solar Cells
Ergang Wang;Zaifei Ma;Zhen Zhang;Zhen Zhang;Koen Vandewal.
Journal of the American Chemical Society (2011)
High Performance All-Polymer Solar Cells by Synergistic Effects of Fine-Tuned Crystallinity and Solvent Annealing
Zhaojun Li;Xiaofeng Xu;Wei Zhang;Xiangyi Meng.
Journal of the American Chemical Society (2016)
25th Anniversary Article: Isoindigo-Based Polymers and Small Molecules for Bulk Heterojunction Solar Cells and Field Effect Transistors
Ergang Wang;Wendimagegn Mammo;Mats R. Andersson.
Advanced Materials (2014)
Solution-Processed Zinc Oxide Thin Film as a Buffer Layer for Polymer Solar Cells with an Inverted Device Structure
Tingbin Yang;Wanzhu Cai;Donghuan Qin;Ergang Wang.
Journal of Physical Chemistry C (2010)
Quantification of Quantum Efficiency and Energy Losses in Low Bandgap Polymer:Fullerene Solar Cells with High Open-Circuit Voltage
Koen Vandewal;Zaifei Ma;Jonas Bergqvist;Zheng Tang.
Advanced Functional Materials (2012)
9.0% power conversion efficiency from ternary all-polymer solar cells
Zhaojun Li;Xiaofeng Xu;Wei Zhang;Xiangyi Meng.
Energy and Environmental Science (2017)
Flexible Carbon Nanotube-Polymer Composite Films with High Conductivity and Superhydrophobicity Made by Solution Process
Chan Luo;Xiaolei Zuo;Lei Wang;Ergang Wang.
Nano Letters (2008)
Donor Polymers Containing Benzothiadiazole and Four Thiophene Rings in Their Repeating Units with Improved Photovoltaic Performance
Ergang Wang;Ming Wang;Li Wang;Chunhui Duan.
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