posted on 2023-01-10, 13:48authored byClaire Heffernan, Marko Ukrainczyk, Jacek Zeglinski, Benjamin K. Hodnett, Åke RasmusonÅke Rasmuson
In this work, the influence of the structurally related impurities, Demethoxycurcumin (DMC)
and Bisdemethoxycurcumin (BDMC) on the primary nucleation of Curcumin (CUR) has
been investigated in propan-2-ol. The induction time for nucleation was measured at different
CUR driving forces and impurity concentrations 0.10 mmol.dm-3, 0.30 mmol.dm-3 and 0.60
mmol.dm-3 and the results are analysed by the classical nucleation theory (CNT). The
nucleation rate for the impure systems was noticeably lower than the nucleation rate of the
pure system, and the times of growth to visibility were much longer for the impure systems.
The pre-exponential factors are clearly lower for the impure system compared to the pure
CUR system, while the increase in the solid-liquid interfacial energy is small. DFT and
Metadynamic molecular modelling reveal that the 1:1 bonding between CUR and an impurity
molecule is stronger than to another CUR molecule, thus suggesting that the developing CUR
nucleus has to overcome a certain energy barrier in order to remove the impurity molecules
from their surface, which may explain why nucleation of CUR is more difficult in presence of
the structurally related impurities; DMC and BDMC.