Daisuke Fujimoto scite author profile

The mechanism of Preferential Enrichment, an unusual enantiomeric resolution phenomenon observed upon recrystallization of a series of racemic crystals which are classified as a racemic mixed crystal with fairly ordered arrangement of the two enantiomers, has been studied. On the basis of the existence of polymorphs and the occurrence of the resulting polymorphic transition during crystallization from solution, the mechanism has been accounted for in terms of (1) a preferential homochiral molecular association to form one-dimensional chain structures in the supersaturated solution of the racemate or nonracemic sample with a low ee value, (2) a kinetic formation of a metastable crystalline phase retaining the homochiral chain structures in a process of nucleation, (3) a polymorphic transition from the metastable phase to a stable one followed by enantioselective liberation of the excess R (or S) enantiomers from the transformed crystal into solution at the beginning of crystal growth to result in a slight enrichment (up to 10% ee) of the opposite S (or R) enantiomer in the deposited crystals, together with an enantiomeric enrichment of the R (or S) enantiomer in the mother liquor, and (4) a chiral discrimination by the once formed S (or R)-rich stable crystalline phase in a process of the subsequent crystal growth, leading to a considerable enantiomeric enrichment of the R (or S) enantiomer up to 100% ee in the mother liquor. The processes (3) and (4) are considered to be directly responsible for an enrichment of one enantiomer in the mother liquor. The association mode of the two enantiomers in solution has been investigated by means of (i) the solubility measurement and (ii) the number-averaged molecular weight measurement in solution by vapor pressure osmometry, together with (iii) the molecular dynamics simulation of oligomer models. The polymorphic transition during crystallization has been observed visually and by means of the in situ FTIR technique and DSC measurement. Both metastable and stable crystals have been obtained, and their crystal structures have been elucidated by X-ray crystallographic analysis of their single crystals.

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Mechanism and Scope of Preferential Enrichment, a Symmetry-Breaking Enantiomeric Resolution Phenomenon

Tamura

Takahashi

Fujimoto

et al. 2006

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The mechanism of "preferential enrichment", an unusually symmetry-breaking enantiomericresolution phenomenon that is observed upon simple recrystallization of a certain kind of organic racemiccrystal from the usual organic solvents without any external chiral element, has been rationalized in termsof a complexity system involving multistage processes that affect each other. These processes comprise:(1) preferential homochiral molecular association to give one-dimensional (1D) R andS chains in solution; (2) formation of γ-form prenucleationaggregates consisting of the same homochiral 1D chains; (3) nucleation and crystal growth of the metastableγ-form crystal composed of irregular alignment of the homochiral 1D R andS chains; (4) the solvent-assisted solid-to-solid type of polymorphictransition of the incipient γ-form crystal into the more stable polymorphic form, such as the α-,δ-, or ε-form; and (5) partial crystal disintegration in the transformed crystal to releaseexcess R or S moleculesinto solution. Based on this mechanism, both induction and inhibition of preferential enrichment have beenachieved by controlling the mode of polymorphic transition during crystallization with appropriate seedcrystals. We call this forced polymorphic transition on the surface of a seed crystal "epitaxialtransition".

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Induction and Inhibition of Preferential Enrichment by Controlling the Mode of the Polymorphic Transition with Seed Crystals

Tamura

Mizuta

Yabunaka

et al. 2006

Chemistry A European J

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Both induction and inhibition of "preferential enrichment", an unusual symmetry-breaking enantiomeric-resolution phenomenon observed upon simple recrystallization of a certain kind of racemic crystals from organic solvents, have been successfully achieved by controlling the mode of the polymorphic transition during crystallization with appropriate seed crystals. Such control of the polymorphic transition can be interpreted in terms of a novel phenomenon consisting of 1) the adsorption of prenucleation aggregates, 2) the heterogeneous nucleation and crystal growth of a metastable crystalline form, and 3) the subsequent polymorphic transition into the more stable form; these three processes occur on the same surface of a seed crystal. We refer to this phenomenon as an "epitaxial transition", which has been confirmed by means of in situ attenuated total reflection (ATR) FTIR spectroscopy in solution and the solid state, differential scanning calorimetry (DSC) measurements of the deposited crystals, and X-ray crystallographic analysis of the single crystals or the direct-space approach employing the Monte Carlo method with the Rietveld refinement for the structure solution from the powder X-ray diffraction data.

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