Replacing Benzyl Chloride with a Lignin-degradation Product in Cellulose Etherification Decreases the Melting Point

Replacing Benzyl Chloride with a Lignin-degradation Product in Cellulose Etherification Decreases the Melting Point

A cellulose ether that is easier to melt than benzyl cellulose was produced from the lignin degradation product veratryl alcohol. Veratryl chloride and bromide were synthesized from the alcohol, and these two chemicals were used to react with Avicel® cellulose to form the novel cellulose ether verat...

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Bibliographic Details
Main Authors: Mohamed Yahia, Ola Sundman
Format: Article
Language:English
Published: North Carolina State University 2022-11-01
Series:BioResources
Subjects:
veratryl cellulose
melting measurements
cellulose ether
degree of substitution
characterisation techniques
size exclusion chromatography
Online Access:https://ojs.cnr.ncsu.edu/index.php/BRJ/article/view/22161
Description
Summary:A cellulose ether that is easier to melt than benzyl cellulose was produced from the lignin degradation product veratryl alcohol. Veratryl chloride and bromide were synthesized from the alcohol, and these two chemicals were used to react with Avicel® cellulose to form the novel cellulose ether veratryl cellulose (VC). Spectroscopic characterisation techniques (1H NMR, FTIR) indicated the successful conversion of Avicel® cellulose to the cellulose ether VC, by both routes, at a degree of substitution of 1.4 to 1.6. Melting measurements of the VC samples showed a gradual softening from approximately 110 °C; the VC was melted below 200 °C. XRD analysis confirmed that the chemical treatments affect the degree of crystallinity. Size exclusion chromatography results showed that the products differ remarkably in molecular weight. The VC synthesized with veratryl chloride degraded almost twice as much as when veratryl bromide were used. The cellulose ethers were soluble in DMSO, DMAc, and CHCl3.
ISSN:1930-2126

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