Sistemas de análises químicas em fluxo explorando mecanismos de re-alimentação, calibração multivariada e outras abordagens para melhoria em desempenho / Flow systems exploiting feed-back mechanisms, multivariate calibration and other strategies for improving the analytical performance

AUTOR(ES)
DATA DE PUBLICAÇÃO

2010

RESUMO

Studies focusing on performance of intelligent analytical flow systems, association with multivariate calibration or use of nanocrystals as sensitizers were carried out. Moreover, improvements related to modifications in flow pattern were evaluated with emphasis to in-line dialysis. To this end, a strategy for implementing simultaneous determinations of iron and vanadium in alloys relying on differential kinetics was proposed. The method was based on the influence of Fe2+ and V4+ on the rate of iodide oxidation by Cr6+ under acidic conditions. Three different plugs of the sample were sequentially inserted into an acidic KI reagent carrier stream, and a confluent K2Cr2O7 solution was added downstream. Overlap between the established plugs led to a complex sample zone with several regions of maximal and minimal absorbance values. Measurements performed on these regions were more precise and revealed the different degrees of reaction development. In another strategy, an intelligent MPFS was proposed for sequential turbidimetric determination of sulphate and chloride in natural waters. Both methods were implemented in the same manifold, providing facilities for: in-line sample cleanup; addition of low amounts of sulphate or chloride ions to the reaction medium for improving supersaturation conditions and real-time decision on the need for next assay. The sample was initially run for chloride determination, and the analytical signal was compared with a preset value. If higher, the sample was run again, now for sulphate determination. Otherwise, next sample was assayed. The strategy led to an increased sample throughput and good analytical figures of merit. Studies focusing on the flow pattern were carried out aiming at the evaluation of the influence of the pulsed flows delivered by solenoid pumps in relation to the efficiency of mass transfer, dispersion related to changes in flow direction of the sample zone and dialysis process as compared with typical laminar flow. Although the establishment of vortices were noted, the experimentally obtained Reynolds number showed that a turbulent flow was not established. Its pattern exhibited characteristics which improved the performance due to the enhanced radial mass transport inherent in turbulent mixing. Comparatively to laminar flow, beneficial aspects were noted in relation to sample dispersion and mass transfer. In relation to dialysis efficiency however process the benefits were not noted probably due to the high pressure inside the dialysis chamber, with consequent membrane pore deformation. In this situation, a hybrid flow analysis system (with laminar flow and turbulent mixing) might be recommended. Implementation of quantum dots nanocrystals (QDs NC) as sensitizers in a MPFS with chemiluminometric detection was proposed for the determinations of gliclazide and glipizide in pharmaceutical formulations. The method relied on the oxidation of sulphite by Ce4+ in acidic medium and, in the presence of the analytes, the emitted radiation of the Ce4+-SO3 2--CdTe QDs system was inhibited. Influence of crystal size was investigated, and the criteria for system optimization were the analytical repeatability, reproducibility and sensitivity. Both analytes were quantified in the same manifold, resulting in good analytical figures of merit. The results were in fairly good agreement with those obtained by the British Pharmacopoeia reference method

ASSUNTO(S)

diálise flow injection analysis calibração multivariada sistemas com multi-impulsão intelligent systems sistemas inteligentes multivariate calibration nanocristais quantum dots turbulent mixing quantum dots nanocrystals multi-pumping flow system sistemas de análises por injeção em fluxo mescla turbulenta dialysis

ACESSO AO ARTIGO

Documentos Relacionados