Liquid-liquid and solid-liquid extractions with low-temperature partitioning – A review.

The paper represents the first review of solvent extraction techniques utilizing the low-temperature partitioning/purification (LTP) approach. Initially conceived in the 1960s to purify extracts from fatty matrices, it wasn't until the 2000s that this approach received increasing attention for its efficacy in extracting organic compounds from diverse samples, often without additional cleanup steps. This review covers a brief history and proposes a mechanism for LTP-based solvent extraction. Furthermore, the principal practical issues of the technique are spotlighted, elucidating the factors influencing extraction efficiency. The advantages, limitations, and potential combinations with other extraction techniques of the LTP-based solvent extractions are analyzed. The versatility of the LTP approach is demonstrated by its applications in extracting various compounds from food, environmental, and biological samples, emphasizing its potential for rapid sample preparation with minimal steps, few chemicals, and minimal analyst intervention. [Display omitted] • The first revision of SE-LTP methods is introduced. • Low-temperature partitioning (LTP) as an ecofriendly approach for solvent extractions (SE). • A sample preparation without a clean-up step for the most complex samples. • SE-LTP as an alternative to the QuEChERS for sample preparation of food samples. [ABSTRACT FROM AUTHOR]