Preparation of superhydrophobic cellulose aerogel sponge from waste paper and its application in oil-water separation

The separation of oil and water mixtures has become crucial globally due to the frequent incidents of petroleum substances and organic solvents leaking into water and the growing necessity to treat industrial wastes containing oil. Most methods for removing oily pollutants are often time-consuming,...

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Bibliographic Details
Published in:Journal of porous materials 2024, Vol.31 (4), p.1335-1350
Main Authors: Bahraminia, Soheil, Anbia, Mansoor, Mirzaei, Arezoo
Format: Article
Language:English
Subjects:
Absorption
Aerogels
Catalysis
Cellulose
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Contact angle
Crystalline cellulose
Dip coatings
Hydrophobic surfaces
Hydrophobicity
Immersion coating
Industrial wastes
Mixtures
Physical Chemistry
Pollutants
Separation
Silicon dioxide
Solvents
Titanium dioxide
Waste treatment
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Summary:The separation of oil and water mixtures has become crucial globally due to the frequent incidents of petroleum substances and organic solvents leaking into water and the growing necessity to treat industrial wastes containing oil. Most methods for removing oily pollutants are often time-consuming, costly, and low-efficiency, and they also cause secondary pollution. The absorption method of oily pollutants has been noticed due to its high efficiency, low energy requirement, and simple application. Aerogels are considered one of the most attractive absorbents for separating oil and water mixtures due to their unique characteristics, such as low density, high porosity, and suitable oil absorption capacity. In this research, a superhydrophobic cellulose aerogel was prepared using crystalline cellulose extracted from waste paper, TiO 2 , SiO 2 nanoparticles, and vinyltrimethoxysilane by a simple dip-coating method for the first time. It was then utilized to remove oily pollutants and organic solvents from water. XRD, FESEM, EDS, FT-IR, DLS, BET, and water contact angle measurements were employed to identify and characterize the synthesized materials and the modified aerogel. The prepared cellulose aerogel exhibited a water contact angle of 163.39˚ and a sorption capacity ranging from 28.5 to 31.5 g.g − 1 for various oily pollutants and organic solvents. Additionally, this superhydrophobic aerogel demonstrated excellent reusability and effectively removed emulsified oil droplets in water. This research showed that the aerogel made from waste paper can effectively separate oily pollutants and organic solvents from water.
ISSN:1380-2224
1573-4854
DOI:10.1007/s10934-024-01607-7