INQUISAL   20936
INSTITUTO DE QUIMICA DE SAN LUIS "DR. ROBERTO ANTONIO OLSINA"
Unidad Ejecutora - UE
artículos
Título:
Multivariate optimization of a solid phase extraction system employing L-tyrosine immobilized on carbon nanotubes applied to molybdenum analysis by inductively coupled plasma optical emission spectrometry with ultrasound nebulization
Autor/es:
CRISTIAN BAZÁN; GIL RAÚL A.; SMICHOWSKI, PATRICIA; PABLO H. PACHECO
Revista:
MICROCHEMICAL JOURNAL
Editorial:
ELSEVIER SCIENCE BV
Referencias:
Lugar: Amsterdam; Año: 2014 vol. 117 p. 40 - 45
ISSN:
0026-265X
Resumen:
A method for Mo solid phase extraction on L-tyrosine immobilized on carbon nanotubes (L-tyr-CNTs) is presented. L-tyr-CNTs were used to fill a minicolumn and introduced into a FI system employing inductively coupled plasma optical emission spectrometry with ultrasound nebulization (USN-ICP OES). Five FI parameters such as buffer flow rate (BFR) and concentration (BC); sample flow rate (SFR); eluent flow rate (EFR) and concentration (EC); and pHwere chosen for optimization employing a half fraction composite design (HFFD). Multivariate optimization through central composite design (CCD) allowed establishing the statistical ideal parameter values to reach maximum Mo signal. From HFFD and CCD it was established that SFR was not affecting the system significantly and that the optimal experimental conditions were: pH, 4.0; BC, 5 mM ammonium acetate; EC, 15% (v v−1) and EFR, 2 mL min−1. Under these conditions an enhancement factor of 750-fold (25 for preconcentration system and 30 for USN) was obtained reaching a detection limit of 40 ng L−1 with a precision of 1.32%. The systemwas successfully applied to a certified referencematerialNIST CRM1643e (trace elements in water) and river, thermal,mine and tap water samples.