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Pure Appl. Chem., 2001, Vol. 73, No. 1, pp. 45-54

Detecting and circumventing sources of inaccuracy in flow analysis

Elias A. G. Zagatto, Fábio R. P. Rocha, Patrícia B. Martelli and Boaventura F. Reis

Centro de Energia Nuclear na Agricultura, Universidade de São Paulo, Box 96, Piracicaba SP 13400-970, Brazil

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  • Maruchi Andréa Keller, Rocha Fábio R.P.: An improved procedure for phosphorous fractionation in plant materials exploiting sample preparation and monosegmented flow analysis. Microchim J 2006, 82, 207. <>
  • Rocha Fábio R. P., Infante Carlos M. C., Melchert Wanessa R.: A Multi‐purpose Flow System Based on Multi‐commutation. Spec Lett 2006, 39, 651. <>
  • Pérez-Olmos R., Soto J.C., Zárate N., Araújo A.N., Lima J.L.F.C., Saraiva M.L.M.F.S.: Application of sequential injection analysis (SIA) to food analysis. Food Chem 2005, 90, 471. <>
  • Pires Cherrine K., Reis Boaventura F., Galhardo Cristiane X., Martelli Patrícia B.: A Multicommuted Flow Procedure for the Determination of Cholesterol in Animal Blood Serum by Chemiluminescence. Anal Lett 2003, 36, 3011. <>
  • Silva Marcelo S.Pinto, Masini Jorge C: Exploiting monosegmented flow analysis to perform in-line standard additions using a single stock standard solution in spectrophotometric sequential injection procedures. Analytica Chimica Acta 2002, 466, 345. <>
  • Rocha Fábio R.P, Reis Boaventura F, Zagatto Elias A.G, Lima José L.F.C, Lapa Rui A.S, Santos João L.M: Multicommutation in flow analysis: concepts, applications and trends. Analytica Chimica Acta 2002, 468, 119. <>