Biomass‐Derived Lignin: Secondary Bonds Modifying Conjugate‐Blocked Linkages of Biomass‐Derived Lignin to Form Electron Transfer 3D Networks for Efficiency Exceeding 16% Nonfullerene Organic Solar Cells (Adv. Funct. Mater. 23/2020) | Zendy

Hu HuiChao | Zendy; Xu Huimin | Zendy; Wu Junying | Zendy; Li Lijuan | Zendy; Yue Fengxia | Zendy; Huang Liulian | Zendy; Chen Lihui | Zendy; Zhang Xingye | Zendy; Ouyang Xinhua | Zendy

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Biomass‐Derived Lignin: Secondary Bonds Modifying Conjugate‐Blocked Linkages of Biomass‐Derived Lignin to Form Electron Transfer 3D Networks for Efficiency Exceeding 16% Nonfullerene Organic Solar Cells (Adv. Funct. Mater. 23/2020)

Author(s) -

Hu HuiChao,

Xu Huimin,

Wu Junying,

Li Lijuan,

Yue Fengxia,

Huang Liulian,

Chen Lihui,

Zhang Xingye,

Ouyang Xinhua

Publication year - 2020

Publication title -

advanced functional materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.069

H-Index - 322

eISSN - 1616-3028

pISSN - 1616-301X

DOI - 10.1002/adfm.202070148

Subject(s) - lignin , conjugate , organic solar cell , materials science , biomass (ecology) , electron transfer , chemical engineering , conductivity , electron transport chain , polymer , photochemistry , composite material , organic chemistry , chemistry , biochemistry , biology , mathematical analysis , mathematics , engineering , agronomy

In article number 2001494, Lihui Chen, Xinhua Ouyang, and co‐workers successfully demonstrate secondary bonds to modify conjugate‐blocked linkages of biomass‐derived lignin or the electron transfer layer of organic solar cells. The enhanced conductivity, resisted phase separation, and repaired the contact makes it valuable for organic electronics.

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