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Tuning liquid aggregation of zwitterionic chitin nanocrystals by graphene oxide planar catchers via electrostatic regulation

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  • Key Words:MOLECULAR-STRUCTURE; I-BETA; TEMPERATURE; MERCERIZATION; TRANSITIONS; CRYSTALLIZATION; CRYSTALLINITY; MIXTURE

  • Abstract:Dissolution followed by regeneration is a typical processing route to cellulose, which triggers much attention in the research of regeneration mechanism, especially for the new solvent ionic liquids (ILs). It has been known that H-bond (HB) interaction between IL and anti-solvent through double diffusion triggers the cellulose regeneration. The structural change including H-bonds transformation mainly during regeneration process is still unclear, however. In the present work, a device for in situ characterization of infrared spectroscopy was set up to monitor the cellulose regeneration from microcrystalline cellulose (MCC)/1-ethyl-3-methylimidazolium acetate ([Emim]Ac) solution. With the help of time-dependent infrared spectroscopy combined with two-dimensional spectral analysis, that is perturbation -correlation moving-window two-dimensional (PCMW2D) correlation spectroscopy and generalized two-dimensional correlation spectroscopy (2DCOS), the mech-anism of cellulose regeneration from MCC/[Emim]Ac solution as water diffusion was revealed. We proposed a two-stage model. The diffusion of the free [Emim]Ac and water contributes to the structural changes occurred at the former stage. Water interacts with free IL to form HBW-IL in one hand, and with non-H bonded hydroxyl groups on cellulose to form HBC-W in another hand. HBC-IL is destroyed as water diffusion further at the later stage. Continuous HBC-W is constructed, accompanied by more HB(W-IL )formation between released anion of [Emim]Ac and water. No crystallization or aggregation of cellulose other than improved regularity of the chain arrangement is revealed by infrared spectroscopy. This study provides a new testing technique for the characterization of H-bonds structures of cellulose on the one hand. On the other hand, it is conductive to the in-depth understanding of the regeneration mechanism of cellulose in ionic liquid systems.

  • Volume:257

  • Issue:

  • Translation or Not:no


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