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Analytical Letters Volume 48, 2015 - Issue 17
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Preconcentration Techniques

Dispersive Liquid–Liquid Microextraction for the Preconcentration of Multiple Classes of Pesticides in Water

Cátia Maria BolzanEscola de Química e Alimentos, Universidade Federal do Rio Grande, Rio Grande, Rio Grande do Sul, Brazil
,
Sergiane Souza CaldasEscola de Química e Alimentos, Universidade Federal do Rio Grande, Rio Grande, Rio Grande do Sul, Brazil
,
Bruno Meira SoaresEscola de Química e Alimentos, Universidade Federal do Rio Grande, Rio Grande, Rio Grande do Sul, Brazil
&
Ednei Gilberto PrimelEscola de Química e Alimentos, Universidade Federal do Rio Grande, Rio Grande, Rio Grande do Sul, BrazilCorrespondence[email protected]
Pages 2754-2772 | Received 06 Feb 2015, Accepted 30 Apr 2015, Published online: 25 Aug 2015

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Nur Azize Akarçay, Dotse Selali Chormey, Nursu Aylin Kasa, Buse Tuğba Zaman & Sezgin Bakırdere. (2020) Development of a sensitive microextraction strategy for the accurate determination of tebuconazole and etrimfos by gas chromatography-mass spectrometry. International Journal of Environmental Analytical Chemistry 100:11, pages 1197-1208.
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Natalia Campillo, Pilar Viñas, Jana Šandrejová & Vasil Andruch. (2017) Ten years of dispersive liquid–liquid microextraction and derived techniques. Applied Spectroscopy Reviews 52:4, pages 267-415.
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Xue Xue, Zhimin Zhao, Qing Li, Dongmei Wang, Xinjun Xu, Longping Zhu & Depo Yang. (2016) Determination of Flavonoids by Solidification of Floating Organic Drop Liquid-Phase Microextraction and High-Performance Liquid Chromatography. Analytical Letters 49:15, pages 2384-2396.
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Articles from other publishers (11)

Slávka Nagyová, Peter Tölgyessy & Svetlana Hrouzková. (2023) Determination of fipronil and its three degradates in water using stir bar sorptive extraction–thermal desorption–gas chromatography–tandem mass spectrometry. Journal of Chromatography A 1710, pages 464431.
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Elisa Beceiro-González, María José González-Castro & Soledad Muniategui-Lorenzo. (2020) A Simple Method for the Determination of Triazines from Seawater in Accordance with the Directive 2013/39/EU. Bulletin of Environmental Contamination and Toxicology 105:2, pages 332-336.
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Naralice HARTWIG, Cláudia Fetter Jorge FERREIRA, Carolina Carvalho COLAZZO, Larine KUPSKI & Eliana BADIALE-FURLONG. (2020) Dry fruit as source of fungal contaminants or functional compounds?. Food Science and Technology 40:1, pages 76-83.
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Zahra Tamiji, Maryam Salahinejad & Ali Niazi. (2020) Optimized Vortex-Assisted Dispersive Liquid–Liquid Microextraction Coupled with Spectrofluorimetry for Determination of Aspirin in Human Urine: Response Surface Methodology. Current Pharmaceutical Analysis 16:2, pages 201-209.
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Chaudhery Mustansar Hussain & Rüstem Keçili. 2020. Modern Environmental Analysis Techniques for Pollutants. Modern Environmental Analysis Techniques for Pollutants 75 119 .
Leila Mousavi, Zahra Tamiji & Mohammad Reza Khoshayand. (2018) Applications and opportunities of experimental design for the dispersive liquid–liquid microextraction method – A review. Talanta 190, pages 335-356.
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Alexandre Della-Flora, Raquel W. Becker, Marco F. Ferrão, Aline T. Toci, Gilcélia A. Cordeiro, Marcela Boroski & Carla Sirtori. (2018) Fast, cheap and easy routine quantification method for atrazine and its transformation products in water matrixes using a DLLME-GC/MS method. Analytical Methods 10:45, pages 5447-5452.
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Alexander Ccanccapa & Yolanda Picó. 2007. Encyclopedia of Analytical Chemistry. Encyclopedia of Analytical Chemistry 1 59 .
Marta Pastor-Belda, Isabel Garrido, Natalia Campillo, Pilar Viñas, Pilar Hellín, Pilar Flores & José Fenoll. (2017) Combination of solvent extractants for dispersive liquid-liquid microextraction of fungicides from water and fruit samples by liquid chromatography with tandem mass spectrometry. Food Chemistry 233, pages 69-76.
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Ednei Gilberto Primel, Sergiane Souza Caldas, Liziane Cardoso Marube & Ana Laura Venquiaruti Escarrone. (2017) An overview of advances in dispersive liquid–liquid microextraction for the extraction of pesticides and emerging contaminants from environmental samples. Trends in Environmental Analytical Chemistry 14, pages 1-18.
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Thalita Dallapícula Ramos, Ricardo J. Cassella, Miguel de la Guardia, Agustín Pastor & Francesc A. Esteve-Turrillas. (2016) Use of a versatile, easy, and rapid atmospheric monitor (VERAM) passive samplers for pesticide determination in continental waters. Analytical and Bioanalytical Chemistry 408:29, pages 8495-8503.
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