posted on 2016-08-01, 00:00authored byJuho Antti Sirviö, Miikka Visanko, Henrikki Liimatainen
In
this study, a new method to fabricate cellulose nanocrystals
(CNCs) based on DES pretreatment of wood cellulose fibers with choline
chloride and organic acids are reported. Oxalic acid (anhydrous and
dihydrate), p-toluenesulfonic acid monohydrate, and
levulinic acid were studied as acid components of DESs. DESs were
formed at elevated temperatures (60–100 °C) by combining
choline chloride with organic acids and were then used to hydrolyze
less ordered amorphous regions of cellulose. All the DES treatments
resulted in degradation of wood fibers into microsized fibers and
after mechanically disintegrating, CNCs were successfully obtained
from choline chloride/oxalic acid dihydrate-treated fibers, whereas
no liberation of CNCs was observed with other DESs. The DES-produced
CNCs had a width and length of 9–17 and 310–410 nm,
respectively. The crystallinity indexes (CrIs) and carboxylic acid
content of the CNCs were 66–71% and 0.20–0.28 mmol/g,
respectively. CNCs exhibited good thermal stabilities (the onset thermal
degradation temperatures ranged from 275–293 °C). The
demonstrated acidic DES method exhibits certain advantages over previously
reported CNC productions, namely, milder processing conditions and
easily obtainable and relatively inexpensive biodegradable solvents
with low toxicity (compared, e.g., to ILs).