Tackling the challenge of drying and redispersion of cellulose nanofibrils via membrane-facilitated liquid phase exchange

It is generally acknowledged that to advance the application of cellulose nanofibrils (CNFs) in product formu-lations, challenges associated with the drying and redispersion of this material must be addressed. Despite increased research efforts in this area, these interventions still involve the use of additives or conventional drying technologies, which both have the capacity to drive up the cost of the final CNF powders. Herein, we prepared dried and redispersible CNF powders with varying surface functionalities without the use of additives nor conventional drying technologies. Rapid drying in air was achieved after liquid phase exchange from water to isopropyl alcohol. The surface properties, morphology and thermal stabilities were the same for the never-dried and redispersed forms. The rheological properties of the CNFs were also unaffected after drying and redispersion of unmodified and organic acid modified materials. However, for 2,2,6,6-tetramethylpiperidine 1-oxyl (TEMPO) -mediated oxidised CNFs with higher surface charge and longer fibrils, the storage modulus could not be recovered to the never-dried state because of the possible non-selective reduction in length upon redispersion. Nevertheless, this method provides an effective and low-cost process for the drying and redispersion of un-modified and surface modified CNFs.

Automated summary

To overcome the challenges associated with drying and redispersion of cellulose nanofibrils (CNFs), we successfully prepared dried and redispersible CNF powders without the use of additives or conventional drying technologies. The surface properties, morphology, and thermal stabilities were maintained for different surface functionalities, and the rheological properties of the CNFs remained unaffected after drying and redispersion.