In Situ Enzymatic Polymerization of Ethylene Brassylate Mediated by Artificial Plant Cell Walls in Reactive Extrusion
Journal article, 2024
Herein, we describe a solvent-free bioinspired approach for the polymerization of ethylene brassylate. Artificial plant cell walls (APCWs) with an integrated enzyme were fabricated by self-assembly, using microcrystalline cellulose as the main structural component. The resulting APCW catalysts were tested in bulk reactions and reactive extrusion, leading to high monomer conversion and a molar mass of around 4 kDa. In addition, we discovered that APCW catalyzes the formation of large ethylene brassylate macrocycles. The enzymatic stability and efficiency of the APCW were investigated by recycling the catalyst both in bulk and reactive extrusion. The obtained poly(ethylene brassylate) was applied as a biobased and biodegradable hydrophobic paper coating.
poly(ethylene brassylate)
reactive extrusion
solvent-free
metal-free catalysis
macrocycles
artificial plant cell wall
ethylene brassylate
ring-opening polymerization
Author
Luca Deiana
Mid Sweden University
Angelica Avella
Chalmers, Industrial and Materials Science, Engineering Materials
Abdolrahim A. Rafi
Mid Sweden University
Rosica Mincheva
Universite de Mons
Julien De Winter
Universite de Mons
Giada Lo Re
Chalmers, Industrial and Materials Science, Engineering Materials
Armando Cordova
Mid Sweden University
ACS Applied Polymer Materials
26376105 (eISSN)
Vol. 6 17 10414-10422Subject Categories
Biochemistry and Molecular Biology
Organic Chemistry
DOI
10.1021/acsapm.4c01568