Issue 14, 2022

Highly regioselective surface acetylation of cellulose and shaped cellulose constructs in the gas-phase

Abstract

Gas-phase acylation is an attractive and sustainable method for modifying the surface properties of cellulosics. However, little is known concerning the regioselectivity of the chemistry, i.e., which cellulose hydroxyls are preferentially acylated and if acylation can be restricted to the surface, preserving crystallinities/morphologies. Consequently, we reexplore simple gas-phase acetylation of modern-day cellulosic building blocks – cellulose nanocrystals, pulps, dry-jet wet spun (regenerated cellulose) fibres and a nanocellulose-based aerogel. Using advanced analytics, we show that the gas-phase acetylation is highly regioselective for the C6-OH, a finding also supported by DFT-based transition-state modelling on a crystalloid surface. This contrasts with acid- and base-catalysed liquid-phase acetylation methods, highlighting that gas-phase chemistry is much more controllable, yet with similar kinetics, to the uncatalyzed liquid-phase reactions. Furthermore, this method preserves both the native (or regenerated) crystalline structure of the cellulose and the supramolecular morphology of even delicate cellulosic constructs (nanocellulose aerogel exhibiting chiral cholesteric liquid crystalline phases). Due to the soft nature of this chemistry and an ability to finely control the kinetics, yielding highly regioselective low degree of substitution products, we are convinced this method will facilitate the rapid adoption of precisely tailored and biodegradable cellulosic materials.

Graphical abstract: Highly regioselective surface acetylation of cellulose and shaped cellulose constructs in the gas-phase

Supplementary files

Article information

Article type
Paper
Submitted
25 Mar 2022
Accepted
20 Jun 2022
First published
21 Jun 2022
This article is Open Access
Creative Commons BY license

Green Chem., 2022,24, 5604-5613

Highly regioselective surface acetylation of cellulose and shaped cellulose constructs in the gas-phase

T. Koso, M. Beaumont, B. L. Tardy, D. Rico del Cerro, S. Eyley, W. Thielemans, O. J. Rojas, I. Kilpeläinen and A. W. T. King, Green Chem., 2022, 24, 5604 DOI: 10.1039/D2GC01141G

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