University of North Florida
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Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Cristina M. Quintella

Abbrev:
Quintella, C.M.
Other Names:
Address:
Instituto de Química, Universidade Federal da Bahia, 40170-290 Salvador, BA, BrazilbDepartamento de Ciências Exatas e da Terra, Universidade do Estado da Bahia, BrazilcInstituto de Física, Universidade Federal da Bahia, BrazildEscola Polit
Phone:
+55 71 99363126
Fax:
+55 71 2355166

Citations 2

"Automated System To Acquire Fluorescence, Polarization And Anisotropy Maps Within Liquid Flows"
J. Autom. Methods Manag. Chem. 2002 Volume 24, Issue 2 Pages 31-39
Cristina M Quintella, Cristiane C Gonçalves, Iuri Pepe, Angelo M V Lima, Ana Paula S Musse

Abstract: Maps of polarization and anisotropy can be helpful for flow analysis systems (FIA, CFA, etc.) with reactions dependent on the intermolecular alignment as well as for dispersion control. Maps can be acquired manually, but when a scan over a sample area is required, the acquisition becomes tiresome and has low precision. The paper describes an automatic flexible system for high-precision sample positioning with closed loop self control, remote data acquisition and storage controlled by a BASIC program. The system was developed to acquire maps up to 850 mm(2) of the sample (liquid flows, solids, interfaces, etc.), with up to 100 mum(2) precision. To evaluate the equipment, performance is presented as the scan of a thin liquid film of monoethylene glycol (MEG) flowing on borosilicate. Tests were performed with and without surfactantes at submicellar concentrations: two concentrations of sodium dodecyl sulfate (SDS) and one of polyethylene oxide (PEO). For pure MEG, the intermolecular alignment initially increased, then decreased. When SDS was added, both polarization and anisotropy only increased progressively with the flow. This might be explained by the surfactant decrease of interfacial interaction. When PEO was added, both polarization and anisotropy decreased pronouncedly over the entire map, which might be due to macromolecular aggregates within the bulk generating misaligned molecular domains. The system presented as sample positioning repeatability of 0.1% and a high polarization reproducibility (error margin < 6 in 1000).
Monoethylene glycol Micelle

"Evaluation Of Transversal And Longitudinal Dispersion In A Flow Injection System By Exploiting Laser Induced Fluorescence: Influence Of Flow-cell Positioning"
Anal. Chim. Acta 2004 Volume 523, Issue 2 Pages 293-300
Cristina M. Quintella, Yuji N. Watanabe, Angelo M.V. Lima, Mauro Korn, Iuri Pepe, Marcelo Embiruu and Ana Paula S. Musse

Abstract: A fully mechanized set-up was built for the experimental determination of bi-dimensional dispersion with high spatial resolution (2400 µm2). Gravitational and wall effects in a single stream were evaluated by using time-based sampling and a micro-flow cell. Vertical upward and downward flows as well as horizontal flows were investigated. Ethylene glycol (MEG) and Rhodamine B in MEG were used as carrier and sample solutions, respectively. Longitudinal profiles were obtained by laser induced total fluorescence (LIF) at up to 19 transversal sites and combined to generate high-resolution bi-dimensional profiles. A two frontal maxima pattern was observed for all flows. The volumetric fraction of RB shape was highly stretched for downward flow and there was high asymmetry for horizontal flow. The sensitivity of three dispersion parameters was evaluated: maximum peak value, peak half-width at half-height, and peak area.Data modeling showed that the tanks-in-series was more sensitive to wall effects, had good adjustment with only one tank for upward and horizontal flow and needed two tanks for downward flow which was attributed to the latter having higher dispersion. A black box empirical modeling described better the gravitational effect and allowed to identify a parameter sensitive to upward and downward flow as well as hinting to two inner streams within the horizontal flow. It also pointed to a wall dispersion contribution of twice that of the liquid-liquid dispersion.