Fernando Maya
University of Tasmania
79 Papers
276 Citations
Fernando Maya is an academic researcher from University of Tasmania. The author has contributed to research in topics: Chemistry & Extraction (chemistry). The author has an hindex of 26, co-authored 66 publications. Previous affiliations of Fernando Maya include University of the Balearic Islands & Lawrence Berkeley National Laboratory.
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Papers
Magnetic solid-phase extraction using metal-organic frameworks (MOFs) and their derived carbons
Fernando Maya,Carlos Palomino Cabello,Rejane M. Frizzarin,José Manuel Estela,Gemma Turnes Palomino,Víctor Cerdà +5 more
TL;DR: In this article, the authors outline and discuss the different approaches for the preparation of magnetic MOFs and their conversion to MPCs for solid-phase extraction (MSPE) applications.
251
Lab in a syringe: fully automated dispersive liquid–liquid microextraction with integrated spectrophotometric detection
TL;DR: The dispersive liquid-liquid microextraction technique is fully automated based on in-syringe extraction followed by in-situ spectrophotometric detection and has been applied to the determination of the dye rhodamine B in water samples and soft drinks.
101
A new approach to the preparation of large surface area poly(styrene-co-divinylbenzene) monoliths via knitting of loose chains using external crosslinkers and application of these monolithic columns for separation of small molecules
Fernando Maya,Frantisek Svec +1 more
TL;DR: In this paper, the effects of a number of variables affecting the hypercrosslinking reaction were studied in detail, including the temperature and time used for polymerization of the precursor monoliths, the amount and loading procedure of the external crosslinker and catalyst, and the reaction time of the Friedel-Crafts alkylation.
98
Automatic In-Syringe Dispersive Microsolid Phase Extraction Using Magnetic Metal-Organic Frameworks.
TL;DR: The developed automatic D-μ-SPE technique is a safe alternative for the use of small-sized materials for sample preparation and is readily implementable to other magnetic materials independent of their size and shape and can be easily hyphenated to the majority of detectors and separation techniques.
87
Completely automated in-syringe dispersive liquid-liquid microextraction using solvents lighter than water.
TL;DR: A new multisyringe flow injection analysis set-up that enables the complete automation of the dispersive liquid–liquid microextraction (DLLME) technique using solvents lighter than water is described.
82