The influence of the solvent in nucleation of tolbutamide, a medium-sized, flexible and polymorphic organic molecule, has been explored by measuring nucleation induction times, estimating solvent-solute interaction enthalpies using molecular modelling and calorimetric data, probing interactions and clustering with spectroscopy, and modelling solvent-dependence of molecular conformation in solution. The nucleation driving force required to reach the same induction time is strongly solvent-dependent, increasing in the order: acetonitrile
Induction time experiments,
spectroscopic and calorimetric analysis,
and molecular modeling were used to probe the influence of solvent
on the crystal nucleation of fenoxycarb (FC), a medium-sized, flexible
organic molecule. A total of 800 induction times covering a range
of supersaturations and crystallization temperatures in four different
solvents were measured to elucidate the relative ease of nucleation.
To achieve similar induction times, the required thermodynamic driving
force, RT ln S, increases in the
order: ethyl acetate < toluene < ethanol < isopropanol. This
is roughly matched by the order of interfacial energies calculated
using the classical nucleation theory. Solvent–solute interaction
strengths were estimated using three methods: solvent–solute
enthalpies derived from calorimetric solution enthalpies, solvent–solute
interactions from molecular dynamics simulations, and the FTIR shifts
in the carbonyl stretching corresponding to the solvent–solute
interaction. The three methods gave an overall order of solvent–solute
interactions increasing in the order toluene < ethyl acetate <
alcohols. Thus, with the exception of FC in toluene, it is found that
the nucleation difficulty increases with stronger binding of the solvent
to the solute.
Nearly 1800 induction time experiments have been performed on crystal nucleation of fenoxycarb in isopropanol to investigate the influence of solution pretreatment. For each preheating temperature and preheating time, at least 80 experiments were performed to obtain statistically valid results. The relationship between the inverse of the induction time and the preheating time can be reasonably described as an exponential decay having time constants ranging up to days depending on the temperature. This dependence on the preheating temperature corresponds to an activation energy of over 200 kJ/mol. Given sufficiently long preheating time and high temperature, the solution appears to reach a steady-state where the "memory" effect has disappeared. Density functional theory modelling suggests that the molecular packing in the crystal lattice is not the thermodynamically stable configuration at the level of simple dimers in solution, while modelling of the first solvation shell reveals that solute aggregation must exist in solution due to the low solvent to solute molecular ratio. It is thus hypothesized that the dissolution of crystalline material at first leaves molecular assemblies in solution that retain features of the crystalline structure which facilitates subsequent nucleation. However, the longer the solution is kept at a temperature above the saturation temperature and the higher the temperature, the more these assemblies disintegrate, and transform into molecular structures less suited to form critical nuclei..
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