期刊
GREEN CHEMISTRY
卷 24, 期 1, 页码 365-374出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1gc03410c
关键词
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资金
- King Abdullah University of Science and Technology (KAUST)
- Advanced Membranes and Porous Materials Center at KAUST
- Saudi Aramco
This study developed biodegradable nanofiltration membranes using date seed biomass solubilized with greener ionic liquids and dimethyl sulfoxide, coated with mussel-inspired polydopamine. The membranes exhibited excellent performance in organic solvent nanofiltration and oil-in-water separation, showcasing the potential for sustainable liquid-separation applications.
Membranes hold a great promise for replacing energy-intensive separations across various industrial sectors. However, membrane production heavily relies on petrochemical-based raw materials; the need for greener membranes is a challenge that is yet to be solved. In this work, we solubilized date seed biomass (abundantly available from the multimillion-metric-ton date industry) using ionic liquids and dimethyl sulfoxide (which are greener than traditional organic solvents) to fabricate biodegradable nanofiltration membranes. The resultant membranes were coated with mussel-inspired polydopamine (PDA) via a layer-by-layer deposition method. The obtained membranes demonstrated excellent performance for organic solvent nanofiltration (OSN) and oil-in-water separation. The deposition time and the number of PDA layers correlated with the molecular sieving performance of the membranes and allowed the fine-tuning of the molecular weight cutoff (MWCO). The best-performing membrane exhibited an acetonitrile permeance of 7.8 L m(-2) h(-1) bar(-1) and a 96% rejection of acid fuchsin (585 g mol(-1)). Moreover, an oil-removal efficiency of up to 97% was achieved with a water permeance of 5.7 L m(-2) h(-1) bar(-1). The prepared membranes showed excellent stability for over seven days in continuous nanofiltration tests. The biodegradability of the membranes was demonstrated in an aqueous cellulase solution. Our work offers a sustainable production of waste biomass-based membranes for liquid-separation applications.
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