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3069128 
Journal Article 
Structural changes in lignins isolated using an acidic ionic liquid water mixture 
Brandt, A; Chen, L; van Dongen, BE; Welton, Tom; Hallett, JP 
2015 
Yes 
Green Chemistry
ISSN: 1463-9262
EISSN: 1463-9270 
17 
11 
5019-5034 
WOS:000364023500016 
Recently, acidic ionic liquid water mixtures based on the hydrogen sulfate anion have been shown to effectively extract lignin from lignocellulosic biomass. This study analyses Miscanthus giganteus lignin isolated after extraction with the protic ionic liquid 1-butylimidazolium hydrogen sulfate ([HC(4)im][HSO4]) followed by precipitation with the antisolvent water. Several analytical techniques were employed, such as quantitative C-13-NMR, H-1-C-13 HSQC NMR, P-31-NMR, Py-GC-MS, GPC and elemental analysis. The analysis shows that the ionic liquid pretreatment breaks lignin-hemicellulose linkages and depolymerizes the lignin through the cleavage of glycosidic, ester and beta-O-4 ether bonds. This is accompanied by solubilization of the newly generated lignin fragments. At longer pretreatment times, repolymerization of lignin fragments through condensation reactions occurs. The isolated lignins were carbohydrate-free, had low sulfur contents, low molecular weights. Early stage lignins were structurally similar to ball-milled lignin, while more treated lignins were enriched in p-hydroxyphenyl and guaiacyl units and had a high phenolic hydroxyl group content. We conclude that, depending on the treatment conditions, lignins with a variety of characteristics can be isolated using this type of ionic liquid solution.