M
Maria Llompart
Researcher at University of Santiago de Compostela
Publications - 181
Citations - 8642
Maria Llompart is an academic researcher from University of Santiago de Compostela. The author has contributed to research in topics: Solid-phase microextraction & Extraction (chemistry). The author has an hindex of 43, co-authored 172 publications receiving 7724 citations.
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Journal ArticleDOI
Behavior of pharmaceuticals, cosmetics and hormones in a sewage treatment plant
Marta Carballa,Francisco Omil,Juan M. Lema,Maria Llompart,Carmen Garcia-Jares,Isaac Rodríguez,Mariano Gómez,Thomas A. Ternes +7 more
TL;DR: The concentration of estrone increased along the treatment due to the partial oxidation of 17beta-estradiol in the aeration tank, and the overall removal efficiencies within the STP ranged between 70-90% for the fragrances, 40-65% forThe anti-inflammatories, around 65% for 17 beta-ESTradiol and 60% for sulfamethoxazole.
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Ultrasound-assisted emulsification–microextraction of emergent contaminants and pesticides in environmental waters
TL;DR: USAEME is proposed as an efficient, fast, simple and non-expensive alternative to other extraction techniques such as SPE, SPME and LPME for the analysis of environmental waters including bottled, tap, river, municipal swimming pool, sewage and seaport water samples.
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Solid-phase extraction of phenols.
TL;DR: Sample preparation for phenol analysis using solid-phase extraction (SPE) is reviewed and the use, advantages and disadvantages of silica sorbents, polymeric, functionalized, carbon-based and mixed available sorbent, when applied to the separation and preconcentration of phenols are discussed.
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Monitoring the photochemical degradation of triclosan in wastewater by UV light and sunlight using solid-phase microextraction
Lucia Sanchez-Prado,Maria Llompart,Marta Lores,Carmen Garcia-Jares,Josep M. Bayona,Rafael Cela +5 more
TL;DR: This study represents an advance in the use of photo-SPME to understand the photochemical fate of environmental organic pollutants and demonstrates its clear advantages with real samples.
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Optimization of a derivatization-solid-phase microextraction method for the analysis of thirty phenolic pollutants in water samples
TL;DR: Two methods applied to the extraction of 30 phenol derivatives from water samples have shown good linearity and precision and practical applicability was demonstrated through the analysis of a real sewage water sample, contaminated with phenols.