Persistent Self-Association of Solute Molecules in
Solution
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Abstract
The
structural evolvement of a solute determines the crystallization
outcome. The self-association mechanism leading to nucleation, however,
remains poorly understood. Our current study explored the solution
chemistry of a model compound, tolfenamic acid (TFA), in three different
solvents mainly by solution NMR. It was found that hydrogen-bonded
pairs of solute–solute or solute–solvent stack with
each through forming a much weaker π–π interaction
as the concentration increases. Depending on the solvent, configurations
of the solution species may be retained in the resultant crystal structure
or undergo rearrangement. Yet, the π–π stacking
is always retained in the crystal regardless of the solvent used for
the crystallization. The finding suggests that nucleation not only
involves the primary intermolecular interaction (hydrogen bonding)
but also engages the secondary forces in the self-assembly process