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Dynamic Self-Assembly Induced Rapid Dissolution of Cellulose at Low Temperatures
writer:Jie Cai, Lina Zhang*, Shilin Liu, Yating Liu, Xiaojuan Xu, Xuming Chen, Benjamin Chu, Xinglin Gu
keywords:cellulose, low temperature, urea
source:期刊
specific source:Macromolecules, 41,9345-9351, 2008
Issue time:2008年
Cellulose can be dissolved in precooled (-12 °C) 7 wt % NaOH-12 wt % urea aqueous solution with in 2 min. This interesting process, to our knowledge, represents the most rapid dissolution of native cellulose.The results from 13C NMR, 15N NMR, 1H NMR, FT-IR, small-angle neutron scattering (SANS), transmission electron microscopy (TEM), and wide-angle X-ray diffraction (WAXD) suggested that NaOH “hydrates” could be more easily attracted to cellulose chains through the formation of new hydrogen-bonded networks at low temperatures, while the urea hydrates could not be associated directly with cellulose. However, the urea hydrates could possibly be self-assembled at the surface of the NaOH hydrogen-bonded cellulose to form an inclusion complex (IC), leading to the dissolution of cellulose. Scattering experiments, including dynamic and static light scattering, indicated that most cellulose molecules, with limited amounts of aggregation, could exist as extended rigid chains in dilute solution. Further, the cellulose solution was relatively unstable and could be very sensitive to temperature, polymer concentration, and storage time, leading to additional aggregations. TEM images and WAXD provided experimental evidence on the formation of a wormlike cellulose IC being surrounded with urea. Therefore, we propose that the cellulose dissolution at -12 °C could arise as a result of a fast dynamic
self-assembly process among solvent small molecules (NaOH, urea, and water) and the cellulose macromolecules.