Cotton fabrics modified with tannic acid/long-chain alkylamine grafting for oil/water separation
Author:
Publisher
Elsevier BV
Subject
General Chemical Engineering,General Chemistry
Reference64 articles.
1. A new treasure in industrial solid waste-coal fly ash for effective oil/water separation;Li;J Taiwan Inst Chem Engrs,2021
2. One-step preparation of tubular nanofibers and micro/nanospheres covered membrane with 3D micro/nano structure for highly efficient emulsified oil/water separation;Zhang;J Taiwan Inst Chem Engrs,2021
3. Novel superhydrophobic surface of cotton fabrics for removing oil or organic solvents from contaminated water;Ahmed;Cellulose,2020
4. Methyltrichlorosilane functionalized silica nanoparticles-treated superhydrophobic cotton for oil–water separation;Dashairya;J Coat Technol Res,2019
5. Sponge-based materials for oil cleanups: a review;Hadji;Front Chem Sci Eng,2020
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