Ultra-lightweight and highly porous carbon aerogels from bamboo pulp fibers as an effective sorbent for water treatment

[Display omitted] •CA sorbents with a low density and a large specific surface area are prepared.•The preparation process for CA is simple and eco-friendly.•The absorption capacities for organic solvents/oils can be as high as 50–150g/g.•The CA sorbents have excellent reusability even for those high...

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Bibliographic Details
Published in:Results in physics 2017, Vol.7, p.2919-2924
Main Authors: Yuan, Wei, Zhang, Xiaofang, Zhao, Jiangqi, Li, Qingye, Ao, Chenghong, Xia, Tian, Zhang, Wei, Lu, Canhui
Format: Article
Language:English
Subjects:
Bamboo
Carbon aerogel
Pyrolysis
Water treatment
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Summary:[Display omitted] •CA sorbents with a low density and a large specific surface area are prepared.•The preparation process for CA is simple and eco-friendly.•The absorption capacities for organic solvents/oils can be as high as 50–150g/g.•The CA sorbents have excellent reusability even for those highly viscous oils. Sorbents derived from biomass provide a novel approach to settle issues of organic solvent and/or oil leakage. In this work, a novel carbon aerogel (CA) was prepared as sorbents using the cheap and abundant bamboo pulp fibers as precursors through the pyrolysis method. The CA displayed an ultra-low density (5.65mgcm−3), high hydrophobicity (water contact angle of 135.9°) and a large specific surface area (379.39m2g−1) as well as great mechanical properties. The absorption capacities of CA for organic solvents/oils were extraordinary (50–150g/g). Particularly, its absorption on organic solvents was superior to many other bio-based CAs. The reusability of CA was also found impressive. For over five absorption–desorption cycles, the CA still showed excellent absorption behaviors on organic solvents and oils. Importantly, the fabrication process of CA is quite simple and environmentally friendly, demonstrating high potentials for future water treatment applications.
ISSN:2211-3797
2211-3797
DOI:10.1016/j.rinp.2017.08.011