Dissolution state of cellulose in aqueous systems. 2. Acidic solvents

Dissolution state of cellulose in aqueous systems. 2. Acidic solvents

•PT ssNMR allows the study of dissolved and solid fractions in a single step.•Acidic solvents lead to degradation of cellulose in solution.•Is possible identify cellulose degradation products in solution by PT ssNMR.•C6 carbon is preferentially protonated/deprotonated when extreme pHs are used. Cell...

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Bibliographic Details
Published in:Carbohydrate polymers Vol. 151; pp. 707 - 715
Main Authors: Alves, Luis, Medronho, Bruno, Antunes, Filipe E., Topgaard, Daniel, Lindman, Björn
Format: Journal Article
Language:English
Published: England Elsevier Ltd 20-10-2016
Subjects:
Acidic solvents
Cellulose - chemistry
Cellulose ionization
Chemical Sciences
Chlorides - chemistry
Dissolution
Gelation
Glycerol - chemistry
Hydrogen-Ion Concentration
Kemi
Molecular organization
Natural Sciences
Naturvetenskap
Phosphoric Acids - chemistry
Polymer Chemistry
Polymerkemi
PT ssNMR
Solubility
Solvents - chemistry
Sulfuric Acids - chemistry
Water - chemistry
Zinc Compounds - chemistry
PT ssNMR
Cellulose ionization
Acidic solvents
Dissolution
Gelation
Molecular organization
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Summary:•PT ssNMR allows the study of dissolved and solid fractions in a single step.•Acidic solvents lead to degradation of cellulose in solution.•Is possible identify cellulose degradation products in solution by PT ssNMR.•C6 carbon is preferentially protonated/deprotonated when extreme pHs are used. Cellulose is insoluble in water but can be dissolved in strong acidic or alkaline conditions. How well dissolved cellulose is in solution and how it organizes are key questions often neglected in literature. The typical low pH required for dissolving cellulose in acidic solvents limits the use of typical characterization techniques. In this respect, Polarization Transfer Solid State NMR (PT ssNMR) emerges as a reliable alternative. In this work, combining PT ssNMR, microscopic techniques and X-ray diffraction, a set of different acidic systems (phosphoric acid/water, sulfuric acid/glycerol and zinc chloride/water) is investigated. The studied solvent systems are capable to efficiently dissolve cellulose, although degradation occurs to some extent. PT ssNMR is capable to identify the liquid and solid fractions of cellulose, the degradation products and it is also sensitive to gelation. The materials regenerated from the acidic dopes were found to be highly sensitive to the solvent system and to the presence of amphiphilic additives in solution.
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ISSN:0144-8617
1879-1344
1879-1344
DOI:10.1016/j.carbpol.2016.06.015