Quimioluminiscencia: una interesante alternativa para la detección analítica en sistemas de flujo

El estudio del tipo de interacción involucrada en la formación de dispersiones sólidas de tolbutamida con distintasproporciones de acetamida y propianamida, ha requerido del diseño y validación de un método analítico por cromatografíalíquida de alta eficacia (CLAE) que permita cuantificar la proporción de los transportadores en mezclas físicas y endispersión sólida. El método resultó ser lineal, preciso y exacto en el intervalo de concentración de 100-1,56 μg/mLpara tolbutamida y 50-0,781 μg/mL para acetamida y propianamida

FI on-line chemiluminescence reaction for determination of MCPA in water samples

This paper reports an economic, simple, and rapid FI-CL method for the determination of MCPA. This method requires simple instrumentation and it is fast enough to be used in routine analyses. A chemiluminescence signal is generated by reaction between photodegraded MCPA and ferricyanide solution in alkaline medium. All physical and chemical parameters in the flow injection chemiluminescence system were optimized in the experimental setting. To eliminate interference, a solid-phase extraction stage with SDB-1 cartridges and ethanol elution is applied. The signal-MCPA concentration relation is linear in concentration intervals between 0.0015 and 0.6 ¿g¿mL -1. The calibration lines are statistically similar in different working conditions: standards with ethanol without extraction and standards with ethanol and extraction, allowing standards to be excluded from the extraction step, which simplifies the process. The detection limit (DL) is 0.5 ng¿mL -1, which is the same order as the maximum limit established in legislation regarding pesticide limits in water destined for human consumption. A DL of 0.13 ng¿mL -1 can be reached if a sample of 100 mL is preconcentrated. The interday variance coefficient is 3% and the sample throughput is 90 h -1. The water analysis method is efficient with relative error percentages lower than 5% with respect to the added concentration. © 2011 Springer-Verlag.Authors acknowledge to the "Ministerio de Educacion y Ciencia" of Spain and FEDER funds for financial support (Project CTM2006-11991)Torres Cartas, S.; Gómez Benito, C.; Meseguer-Lloret, S. (2012). FI on-line chemiluminescence reaction for determination of MCPA in water samples. Analytical and Bioanalytical Chemistry. 402:1289-1296. https://doi.org/10.1007/s00216-011-5567-1S12891296402Navarro JS (2008) Utilización de plaguicidas en las asociaciones de tratamientos integrados en agricultura en la región de Murcia. Consejería de Sanidad Región de MurciaBarceló D, Hennion MC (1997) Trace determination of pesticide and their degradation products in water. Elsevier, AmsterdamKöck M, Farré M, Martínez E, Gajda-Schrantz K, Ginebreda A, Navarro A, López de Alda M, Barceló D (2010) J Hydrol 383(1–2):73–82Woudneh MB, Sekela M, Tuominen T, Gledhill M (2007) J Chromatogr A 1139(1):121–129Laganà A, Bacaloni A, De-Leva I, Faberi A, Fago G, Marino A (2002) Anal Chim Acta 462:187–198Comoretto L, Arfib B, Chiron S (2007) Sci Total Environ 380(1–3):124–132Kuster M, de Alda MJL, Barata C, Raldá D, Barceló D (2008) Talanta 75(2):390–401Kuster M, de Alda MJL, Hernando MD, Petrovic M, Martín-Alonso J, Barceló D (2008) J Hydrol 358(1–2):112–123Gervais G, Brosillon S, Laplanche A, Helen C (2008) J Chromatogr A 1202(2):163–172Housari F, Höhener P, Chiron S (2011) Sci Total Environ 409(3):582–587Delhomme O, Raeppel C, Briand O, Millet M (2011) Anal Bioanal Chem 399:1325–1334Royal decree 140/2003, 7th of February that establishes the health criteria for the water quality for human consumption. (BOE 21 February 2003)von-der-Ohe PC, Dulio V, Slobodnik J, de-Deckere E, Köhne R, Ebert RU, Ginebreda A, de-Cooman de-Cooman W, Schüürmann G, Brack W (2011) Sci Total Environ 409(11):2064–2077Horwitz W (ed) (2000) Official methods of analysis of AOAC International, 17th edn. AOAC International, GaithersburgMoret S, Sánchez JM, Salvadó V, Hidalgo M (2005) J Chromatogr A 1099(1–2):55–63Tran ATK, Hyne RV, Doble P (2007) Chemosphere 67(5):944–953Long F, Shi HC, He M, Zhu AN (2008) Biosens Bioelectron 23:1361–1366Meulenberg EP, Stoks PG (1995) Anal Chim Acta 311:407–413Chuang JC, Van Emon JM, Durnford J, Thomas K (2005) Talanta 67:658–666Boro RC, Kaushal J, Nangia Y, Wangoo N, Bhashi A, Suri CR (2011) Analyst 136(10):2125–2130Eremin SA, Laassis P, Aaron JJ (1996) Talanta 43:295–301Almansa-López EM, García-Campaña AM, Aaron JJ, Cuadros-Rodriguez L (2003) Talanta 60:355–367García LF, Eremin S, Aaron JJ (1996) Anal Lett 29(8):1447–1461García-Campaña AM, Aaron JJ, Bosque-Sendra JM (2002) Luminescence 17:285–287Lara FJ, García-Campaña AM, Aaron JJ (2010) Anal Chim Acta 679:17–30López-Paz J, Catalá-Icardo M (2011) Anal Lett 44(1–3):146–175Mbaye M, Gaye-Seye M, Aaron JJ, Coly A, Tine A (2011) Anal Bioanal Chem 400(2):403–410López-Paz JL, Catalá-Icardo M, Antón-Garrido B (2009) Anal Bioanal Chem 394:1073–1079López-Paz J, Catalá-Icardo M (2008) Anal Chim Acta 625(2):173–179Chen X, Lin Z, Cai Z, Chen X, Wang X (2008) Talanta 76(5):1083–1087Meseguer-Lloret S, Torres-Cartas S, Gómez-Benito M (2010) Anal Bioanal Chem 398:3175–3182Catalá-Icardo M, Martínez-Calatayud J (2008) Crit Rev Anal Chem 38(2):118–13

Application of a new PVC-based ion-selective electrode for surfactant detection in microflow systems

Comparative StudyJournal ArticleFLWINinfo:eu-repo/semantics/publishe