Oiling-out Crystallization of Beta-Alanine onSolid Surfaces Controlled by Solvent Exchange

TL;DR

This study investigates how solvent exchange influences oiling-out crystallization of beta-alanine on surfaces, revealing control over droplet formation, crystal morphology, and potential applications in pharmaceutical purification.

Contribution

It introduces a model for controlling oiling-out crystallization via solvent exchange, highlighting the effects of flow rate and surface properties on crystal formation and morphology.

Findings

Flow rate significantly affects droplet size and crystal growth.

Fast flow rates produce spherical-cap crystals; slow flow yields thin films.

Crystals can be seeded from low-concentration solutions using solvent exchange.

Abstract

Droplet formation in oiling-out crystallization has important implication for separation and purification of pharmaceutical active ingredients by using an antisolvent. In this work, we report the crystallization processes of oiling-out droplets on surfaces during solvent exchange. Our model ternary solution is beta-alanine dissolved in isopropanol and water mixture. As the antisolvent isopropanol displaced the alanine solution pre-filled in a microchamber, liquid-liquid phase separation occurred at the mixing front. The alanine-rich subphase formed surface microdroplets that subsequently crystallized with progression of solvent exchange. We find that the flow rates have significant influence on the droplet size, crystallization process, and growth rate, and final morphology of the crystals. At fast flow rates the droplets solidified rapidly and formed spherical-cap structures resembling the shape of droplets, in contrast to crystal microdomains or thin films formed at slow flow rates. On a highly hydrophilic surface, the crystals formed thin film without droplets formed on the surface. We further demonstrated that by the solvent exchange crystals can be formed by using a stock solution with a very low concentration of the precursor, and the as-prepared crystals can be used as seeds to trigger crystallization in bulk solution. Our results suggest that the solvent exchange has the potential to be an effective approach for controlling oiling-out crystallization, which can be applied in wide areas, such as separation and purification of many food, medical, and therapeutic ingredients.