期刊
GREEN CHEMISTRY
卷 22, 期 16, 页码 5414-5422出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0gc01722a
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- Western Michigan University
The complete and mild-condition fractionation of woody biomass without energy-intensive size reduction still remains a significant challenge. This study reports an innovative cellulose-centred fractionation process based on bifunctional, recyclable, inexpensive, and lignin-derivable phenol-4-sulfonic acid (PSA). The results showed that aqueous PSA solution (e.g., 72 wt%) near-completely fractionated centimetre-sized hardwood, such as poplar and birch chips, into cellulose fibres of high quality (length: >1 mm, crystallinity index: 61-65, DPv: 830-887), fermentable hemicellulose sugars, and lignin in theoretical maximum yields under mild conditions (e.g., 50-80 degrees C, 0.5-3 h, atm). Calculations and experimental results suggest that PSA, as a small amphiphile, could form aggregates and clusters in water. Therefore, during fractionation, PSA acted as not only a selective catalyst through the immobilized sulfonic acid groups to depolymerize hemicellulose and lignin, but also as a mesoscale solvent to solubilize and protect lignin fragments through aggregates and accumulating around them due to the hydrophobic effect.
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