Preparation of Superhydrophobic Fabrics via Chemical Self‐Healing Strategy and Their High Oil/Water Separation Performance and Enhanced Durability | Zendy

Liu Lili | Zendy; Shan Yuxing | Zendy; Pu Maoyuan | Zendy; Zhao Xiuli | Zendy; Huang Yawen | Zendy

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Preparation of Superhydrophobic Fabrics via Chemical Self‐Healing Strategy and Their High Oil/Water Separation Performance and Enhanced Durability

Author(s) -

Liu Lili,

Shan Yuxing,

Pu Maoyuan,

Zhao Xiuli,

Huang Yawen

Publication year - 2020

Publication title -

macromolecular chemistry and physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.57

H-Index - 112

eISSN - 1521-3935

pISSN - 1022-1352

DOI - 10.1002/macp.202070005

Subject(s) - durability , self healing , materials science , contact angle , silicon rubber , natural rubber , composite material , polymer science , medicine , alternative medicine , pathology

Back Cover : In article number 1900356 by Lili Liu, Yawen Huang, and co‐workers, a fabric modified by self‐healable silicon rubber exhibites superhydrophobic characteristics with a contact angle of 158°, high oil/water separation efficiency (≈99%), and high durability. After damage, these modified fabrics enable fast self‐healing at room temperature (in just 10 min) and maintain its oil/water separation efficiency above 98%.

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