Acylation of Lignin with Different Acylating Agents by Mechanical Activation-Assisted Solid Phase Synthesis: Preparation and Properties.

Xiaohong Zhao,Zuqiang Huang,Aimin Huang,Zhenfei Feng,Huayu Hu,Yanjuan Zhang,Mei Yang

doi:10.3390/polym10080907

Xiaohong Zhao, Zuqiang Huang + Show 5 more

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https://doi.org/10.3390/polym10080907

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Journal: Polymers	Publication Date: Aug 12, 2018
Citations: 20	License type: CC BY 4.0

Affiliation: Guangxi University, Hezhou University

Abstract

Acylated lignins with substituents consisting of different lengths of carbon chains were prepared by a mechanical activation-assisted solid phase synthesis (MASPS) technology with a customized stirring ball mill as a reactor. The structures and properties were analyzed by UV/Vis, FTIR, NMR, SEM, DSC, and TG. The results showed that the acylated lignins were successfully prepared with either non-cyclic or cyclic anhydrides as the acylating agents. Both aliphatic hydroxyl and phenolic hydroxyl groups of lignin reacted with non-cyclic anhydrides, and different reactivity of acylating agents resulted in different relative contents of phenolic and aliphatic substituents in the products. The reactivity of the cyclic anhydrides was weaker than that of the non-cyclic anhydrides, and the reactivity of the acylating agents decreased with increasing carbon chain length and unsaturated bonds of acyl groups. All of the acylated lignins except maleylated lignin had a lower glass transition temperature (Tg) than the original lignin. The acylated lignins prepared with non-cyclic anhydrides had better thermal stability than original lignin, and the thermal stability increased, but Tg decreased with an increasing chain length of the acyl groups. The acylated lignins prepared with cyclic anhydrides had higher a Tg than those with non-cyclic anhydrides with the same carbon number, and the thermal stability was not obviously improved.

Highlights

Lignin is a cross-linked amorphous copolymer consisting of three phenylpropane monomers (p-coumaryl, coniferyl, and sinapyl alcohols), which are bonded together through C–O–C and C–C interunit linkages [1,2]
All acylated lignins that are prepared by microwave-assisted acylation with non-cyclic anhydrides as acylating agents are more thermally stable than the original lignin, and longer chains of anhydride lead to lower glass transition temperatures (Tg ) of acylated lignin [16,21]
Acylated lignins with different carbon chain lengths in the ester substituents were successfully prepared by mechanical activation-assisted solid phase synthesis (MASPS) technology, with non-cyclic and cyclic anhydrides as acylating agents

Summary

Introduction

Lignin is a cross-linked amorphous copolymer consisting of three phenylpropane monomers (p-coumaryl, coniferyl, and sinapyl alcohols), which are bonded together through C–O–C and C–C interunit linkages [1,2]. It is one of the main ingredients of lignocellulose, accounting for 15–25%. Most of the lignin has not been efficiently used due to its complicated interunit linkages, high affinity, and the ease of forming a more condensed structure, poor product selectivity, poor compatibility with polymers, and so on [4]. Modification can greatly expand the application of lignin in polymer materials and chemical syntheses [1], and esterification is an important method for the modification of lignin

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