LAUSR

Countercurrent chromatography (CCC) is a liquid-liquid separation technique in which compounds are separated on the basis of partitioning between two immiscible phases. Besides having inherent advantages-high loading capacity, easy scale-up, and sample recovery with no chemical degradation-that position CCC as an alternative to conventional chromatographic methods, it can also be sustainable, especially when methodologies are optimized, including the use of eco-friendly solvents, high sample loading, and solvent recycling. This review highlights the green potential of CCC by integrating green chemistry principles through low solvent consumption, reduced waste, and the use of bio-based solvents, such as aqueous two-phase solvent systems and deep eutectic solvents, to align CCC with sustainable chromatographic approaches. Moreover, the technique's ability to recycle solvent phases and process crude extracts with minimal sample preparation boosts its environmental benefits. Despite these advantages, several challenges limit the widespread adoption of CCC, particularly in industrial settings. Patent analysis indicates that although CCC is commonly used to purify natural products, its role in sustainability-driven innovations remains relatively limited. The selection of biphasic solvent systems is a critical bottleneck, often requiring extensive experiments, which can result in excessive solvent use. Advances in computational methods have improved the selection of solvent systems, allowing for a more resource-efficient approach. By modeling phase interactions, these computational tools can predict partition coefficients and optimize solvent compositions, consequently reducing experimental waste. Future research should focus on integrating CCC into large-scale sustainable workflows to enhance its environmental viability in natural product chemistry.