Synthesis of Recyclable Magnetic Cellulose Nanofibers from Ionic Liquids for Practical Applications in Separation Science

Abstract

The present study focused on coupling cellulose nanofibers (alternative materials for plastics and metals) with a magnetic ionic liquid (synthesized by a microwave-assisted method) through mixing to yield magnetic cellulose nanofibers (MCNFs) that can be recycled by attracting them to a magnet. Accordingly, two types of ionic liquids were synthesized: (a) 1-butyl-3-methylimidazolium tetrachloroferrate(III) {[bmim] FeCl₄} and (b) 1-glycidyl-3-methylimidazolium tetrachloroferrate {[glmi]FeCl₄}, which were characterized by the fast atom bombardment mass spectrometry (FAB−MS) technique. Impregnation of the cellulose nanofibers with the {[bmim]FeCl₄} ionic liquid caused the latter to be physically adsorbed onto the nanofibers to produce {MCNF@{[bmim]FeCl₄}, whereas the corresponding {[glmi]FeCl₄} ionic liquid was chemically bonded to the cellulose nanofibers to yield magnetic {MCNF@[glmi]FeCl₄} nanofibers. Under the experimental conditions used, the corresponding magnetic moments were 0.222 A m² kg^-1 for {MCNF@ {[bmim]FeCl₄} and 0.095 A m² kg^-1 for {MCNF@[glmi]FeCl₄}.

graphical abstract