A bug in enantiomer separation: double salt formation – diastereomeric and double salt structures of 1-cyclohexylethylammonium 2- and 4-chloromandelate

“…The solubility of R−S was 3-fold greater than that of S−S at a high temperature (40 °C). This means that S−S would be preferentially precipitated into a solid form solution prior to the more soluble isomer R−S, 31 which further laid a thermodynamic foundation for the acquisition of the conglomerate. Therefore, it can be further concluded that the two racemic compounds could successfully convert into the conglomerate as shown in Scheme 1(ii), and then the availability of chiral resolution in this system was verified by preferential crystallization to obtain both enantiomers.…”

Case of Chiral Resolution through Converting Two Racemic Compounds into a Conglomerate

“…The solubility of R−S was 3-fold greater than that of S−S at a high temperature (40 °C). This means that S−S would be preferentially precipitated into a solid form solution prior to the more soluble isomer R−S, 31 which further laid a thermodynamic foundation for the acquisition of the conglomerate. Therefore, it can be further concluded that the two racemic compounds could successfully convert into the conglomerate as shown in Scheme 1(ii), and then the availability of chiral resolution in this system was verified by preferential crystallization to obtain both enantiomers.…”

Case of Chiral Resolution through Converting Two Racemic Compounds into a Conglomerate