Alvaro Santana-Mayor
University of La Laguna, Spain
Title: Development of a deep eutectic eutectic solvent-based extraction procedure followed by high performance liquid chromatography-UV-tandem mass spectrometry detection for plastic migrants determination
Biography
Biography: Alvaro Santana-Mayor
Abstract
Plastic migrants are substances present in plastic materials which are non-chemically linked to the polymeric matrix and, therefore, can be released to the environment or food samples. Due to their harmful effects on health and ecosystems, it is necessary to develop environmentally friendly analytical methods for their determination in samples of interest, even at low levels of concentration. In this sense, deep eutectic solvents (DESs), based on a mixture of a hydrogen bond donor (HBD) and a hydrogen bond acceptor (HBA), represent an interesting alternative to conventional extraction solvents. Introduced by Abbott et al. [1] in 2003, they are generally composed of quaternary ammonium or phosphonim salts, as HBAs, and carboxylic acid, amines, amides or alcohols, as HBDs. In this work, a new, simple, fast and efficient method based on the use of a choline chloride-based DES, as green solvent, has been developed for the extraction of a group of eight plastic migrants in different beverages. Separation and quantification were carried out by high performance liquid chromatography coupled to a diode-array detector system. The extraction procedure was successfully validated obtaining recovery values in the range 85-120 %, as well as limits of detection of the method in the range 5.1-17.8 µg/L. With the aim of evaluating the applicability of the develop methodology, the presence of target analytes in beverages such as tea drinks, apple soft drinks and pineapple juices was evaluated. The analytes detected in samples were confirmed by mass spectrometry.