J
Junyi Wang
Researcher at Chinese Academy of Sciences
Publications - 24
Citations - 907
Junyi Wang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Polymer solar cell & Organic solar cell. The author has an hindex of 18, co-authored 24 publications receiving 776 citations.
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Thienothiophene-based copolymers for high-performance solar cells, employing different orientations of the thiazole group as a π bridge
Dangqiang Zhu,Xichang Bao,Qianqian Zhu,Chuantao Gu,Meng Qiu,Shuguang Wen,Junyi Wang,Bilal Shahid,Renqiang Yang,Renqiang Yang +9 more
TL;DR: In this article, a thiazole moiety was employed as a π bridge incorporated into the backbone of quinoid polymers, which achieved a superior PCE of 9.72% for the photovoltaic device with a remarkable JSC of 16.84 mA cm−2.
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High-Performance Photovoltaic Polymers Employing Symmetry-Breaking Building Blocks
Deyu Liu,Qianqian Zhu,Chunyang Gu,Junyi Wang,Meng Qiu,Weichao Chen,Xichang Bao,Mingliang Sun,Renqiang Yang,Renqiang Yang +9 more
TL;DR: This work provides a new approach to design prospective organic optoelectronic materials employing the symmetry-breaking strategy and improves the photovoltaic properties of the asymmetric BDT-based polymers.
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WO3 with surface oxygen vacancies as an anode buffer layer for high performance polymer solar cells
TL;DR: In this article, a solution-based tungsten oxide (WO3) layer with surface oxygen vacancies (VOs) is introduced as an efficient anode buffer layer between the active layer and indium tin oxide (ITO) glass.
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Highly Efficient Inverted Perovskite Solar Cells With Sulfonated Lignin Doped PEDOT as Hole Extract Layer
TL;DR: The results show that amorphous GSL is a good candidate as dopant of PEDOT, and it provides a novel prospective for the design of HEL based on lignin, a renewable biomass and phenol derivatives.
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Stirring Up Acceptor Phase and Controlling Morphology via Choosing Appropriate Rigid Aryl Rings as Lever Arms in Symmetry-Breaking Benzodithiophene for High-Performance Fullerene and Fullerene-Free Polymer Solar Cells.
TL;DR: This work clearly shows that the asymmetric BDT unit is an excellent donor building block to construct highly efficient photovoltaic polymers, and demonstrates that it is not necessary that high-performance fullerene-free polymer solar cells (PSCs) require highly ordered microstructures in the blending films, different from the fulleren-based PSCs.