15 results on '"Luciano F. Almeida"'
Search Results
2. Accurate automatic titration procedure for low sharpness and dichroism in end point detection using digital movies as detection technique
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Ricardo Chaves Lima, Wellington da Silva Lyra, Renato A.N. Andrade, Lucas A. Siqueira, Pedro Lemos De Almeida Júnior, Iara S. Nunes, Luciano F. Almeida, and Mário César Ugulino de Araújo
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Spectrum analyzer ,Titration curve ,Correlation coefficient ,010401 analytical chemistry ,Frame (networking) ,Analytical chemistry ,02 engineering and technology ,Sigmoid function ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,Analytical Chemistry ,Region of interest ,Titration ,0210 nano-technology ,Algorithm ,Spectroscopy ,Second derivative ,Mathematics - Abstract
This study addresses the challenge of performing fast and accurate titrations with end points that are difficult to identify. In this sense, the combination of digital movies (DMs) with a flow-batch analyzer (FBA) has shown to be a promising analytical tool. In a digital movie-based automatic titrator (DMB-AT), a DM is recorded by a webcam as the titrant is added in the mixing chamber (MC). The DM is then decompiled into frames that are ordered sequentially. In the first frame, the region of interest (ROI) of 257 × 255 pixels is defined. The red (R) component is used to calculate the Pearson's correlation coefficient (r) between the first frame and each subsequent one. The titration curve is obtained in real time by plotting r values and the opening time of the titrant valve. The experimental titration curve is fitted in a sigmoidal regression, and the new titration curve is used to estimate the end point by means of the second derivative method. A software program written in Adobe AIR for a desktop platform programmed in ActionScript 3.0 controlled the opening time of the solenoid valves, gathered the analytical signal and carried out the analytical procedure in real time. The feasibility of the method was confirmed by determining the total hardness and the total alkalinity in mineral waters. The results were compared with classical batch titration and did not exhibit statistically significant differences when the paired t-test at the 95% confidence level was applied. The proposed method is able to process approximately 67 and 86 samples h− 1 for total hardness and total alkalinity, respectively. Its precision was confirmed by overall relative standard deviation (RSD) values of less than 1.0% in both applications.
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- 2017
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3. A fast and sensitive flow-batch method with hydride generating and atomic fluorescence spectrometric detection for automated inorganic antimony speciation in waters
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Wellington da Silva Lyra, Sergio Luis Costa Ferreira, Josué Carinhanha Caldas Santos, Mario M.S. Junior, Luciano F. Almeida, Francisco Antônio da Silva Cunha, Mário César Ugulino de Araújo, and Eduardo A. Lima
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Detection limit ,Hydride ,010401 analytical chemistry ,Analytical chemistry ,chemistry.chemical_element ,02 engineering and technology ,021001 nanoscience & nanotechnology ,01 natural sciences ,Homogenization (chemistry) ,0104 chemical sciences ,Analytical Chemistry ,Working range ,Mineral water ,Antimony ,chemistry ,Tap water ,Reagent ,0210 nano-technology - Abstract
In this paper, a flow-batch analysis (FBA) system, hydride generation (HG), and atomic fluorescence spectrometry (AFS) are coupled for the first time to develop a fast and sensitive FBA–HG–AFS method for automated inorganic antimony speciation in waters, whether from the sea, mineral water, tap water, or lakes. Unlike previous automated flow methods that use confluent fluids and complex devices, the main advantage of the proposed FBA-HG-AFS method is an innovative use of a simple laboratory made flow-batch chamber to simultaneously perform mixing, homogenization, reactions, antimony hydride formation, and gas–liquid separation. The FBA-HG-AFS method was optimized using two–level full factorial and Box–Behnken designs, and validated on the basis of real repeated measurements and analysis of variance, yielding a satisfactory working range (100–2000 ng L−1), precision (RSD = 4%), sensitivity, and limit of detection (6 ng L−1) for the water samples analyzed. Accuracy was evaluated by recovery tests and analysis of a standard reference material (SRM 1643e) of trace elements in water (NIST, USA), resulting in recovery rates of from 90 to 114%, and relative error = 0.7%. The high sampling throughput (54 speciations h−1), together with low waste generation, low costs, low reagent and sample consumption make this FBA-HG-AFS method an interesting proposal for fast large-scale analysis in routine laboratoy according to the principles of green analytical chemistry.
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- 2020
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4. CO bonding in FeN4 complexes and the effect of the macrocycle ligand: A DFT study
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Jaldyr de Jesus Gomes Varela, Adilson Luís Pereira Silva, Auro Atsushi Tanaka, Aldaléa L. B. Marques, Luciano F. Almeida, and Albérico B. F. da Silva
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Chemistry ,Stereochemistry ,Ligand ,Annulene ,Bond order ,Porphyrin ,Inorganic Chemistry ,Bond length ,QUÍMICA INORGÂNICA ,chemistry.chemical_compound ,Crystallography ,Materials Chemistry ,Molecule ,Physical and Theoretical Chemistry ,HOMO/LUMO ,Pi backbonding - Abstract
This paper presents a theoretical study using density functional theory (DFT) to investigate the bonding between carbon monoxide (CO) molecules and type FeN4 macrocycle complexes of iron to form FeN4–CO adducts. In order to understand how different macrocycle ligands affect this interaction, CO molecules were bound to the following complexes: iron–porphyrin (FeP), iron–tetraaza[14]annulene (FeTAA), iron–tetramethyl-tetraaza[14]annulene (FeTMTAA), iron–dibenzotetraaza[14]annulene (FeDBTAA), and iron–tetramethyl-dibenzotetraaza[14]annulenes (FeTMDBTAA1, FeTMDBTAA2). The best description of the systems investigated was provided by the Lanl2TZ(f)/6-31G⁎ basis set, which was therefore used throughout the work. Analysis of the factors influencing the CO bonding process showed that different macrocycle ligands produced adducts that were different in terms of CO bond length, total CO fragment charge, CO vibrational frequency, and CO bond order. The activity of the interaction between CO and the iron-complex was inversely proportional to the energy gap between the HOMO of the FeN4 complex and the LUMO of CO. Finally, a greater degree of back-bonding was characterized by increased occupancy of the px and py orbitals of the O atom of the CO fragment, confirming that the TAAs were more active than porphyrin, in the ascending order: FeP
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- 2014
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5. A digital image-based flow-batch analyzer for determining Al(III) and Cr(VI) in water
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Edvan Cirino da Silva, Stéfani Iury E. Andrade, Marcelo B. Lima, Wellington da Silva Lyra, Inakã S. Barreto, Luciano F. Almeida, and Mário César Ugulino de Araújo
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Detection limit ,Spectrum analyzer ,Chemistry ,Natural water ,Analytical chemistry ,chemistry.chemical_element ,Standard solution ,Analytical Chemistry ,chemistry.chemical_compound ,Chromium ,Digital image ,Bromide ,RGB color model ,Spectroscopy - Abstract
This study proposes a digital image-based flow-batch analyzer (DIB-FBA) for aluminum (III) and chromium (VI) determinations in natural water. A webcam with a CCD sensor and RGB data are used. The method for determining aluminum is based on an Al(III) ion, quercetin, and cetyltrimethylammonium bromide (CTAB) reaction which yields a yellow colored complex in an acetate buffer medium (pH 5.5). The determination of chromium is based on a Cr(VI) ion with 1,5-diphenylcarbazide (DPC) reaction whose product is a violet colored complex. Digital images present the color of the emergent (complementary) radiation to that absorbed by the complexes formed in each analysis. RGB data were employed to build the analytical curves. All standard solutions were prepared in-line, and all analytical processes were completed by simply changing the operational parameters in the DIB-FBA control software. The working ranges were from 10 to 600 μg L − 1 for Al(III) with r = 0.9994 (n = 5), and 10 to 300 μg L − 1 for Cr(VI) with r = 0.999 (n = 5), the limits of detection were 3.97 and 2.65 μg L − 1 respectively for Al(III) and Cr(VI). The relative standard deviation (RSD %) and sampling rate were estimated at 1.5% and 137 h − 1 and at 1.7% and 134 h − 1 for Al(III) and Cr(VI), respectively. Comparing with the reference method, no statistically significant differences were observed when applying the paired t -test at a 95% confidence level.
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- 2013
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6. A digital image-based micro-flow-batch analyzer
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Inakã S. Barreto, Luciano F. Almeida, Mário César Ugulino de Araújo, Marcelo B. Lima, and Stéfani Iury E. Andrade
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Spectrum analyzer ,business.industry ,Computer science ,Analytical chemistry ,Standard solution ,Analytical Chemistry ,Digital image ,Microsystem ,RGB color model ,Charge-coupled device ,business ,Throughput (business) ,Lithography ,Computer hardware ,Spectroscopy - Abstract
This paper introduces for the first time the combination of digital images taken with a webcam and a micro-flow-batch analyzer as a novel strategy for implementing quantitative chemical analysis. The digital image-based micro-flow-batch analyzer (DIB-μFBA) was formed using urethane-acrylate resin, glass slides and ultraviolet lithography. The glass slides were used as sealant layers on both sides of the substrate urethane-acrylate and provide the necessary transparency to the microsystem to conduct studies using digital images. DIB-μFBA uses digital images obtained from a webcam with CCD sensor, based on the RGB (red–green–blue) color model. The analyzer was used for determining the tannins in green tea employing the well-known ferrous tartrate method. All standard solutions were prepared in-line, and all analytical processes were completed by simply changing the operational parameters in DIB-μFBA control software. The paired t test, at a 95% confidence level, showed no statistically significant differences between results obtained by DIB-μFBA and the spectrophotometric reference method. The proposed microsystem presented satisfactory physical and chemical properties while keeping the flexibility, versatility, robustness and multi-task characteristics of conventional flow-batch analysis. Therefore, it was possible to build a low-cost device with high sample throughput (about 190 h− 1) and reduced reagent consumption (about 300 times less than the reference method), contributing to the basic principles of green chemistry and the advancement of micro-analytical procedures.
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- 2013
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7. Flow-batch analysis
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David P. Harding, Paulo Henrique Gonçalves Dias Diniz, Luciano F. Almeida, and Mário César Ugulino de Araújo
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Spectrum analyzer ,business.industry ,Computer science ,Sample (material) ,Flow (psychology) ,Analytical chemistry ,Sampling (statistics) ,Process engineering ,business ,Concentration gradient ,Spectroscopy ,Analytical Chemistry ,Screening analysis - Abstract
Since its inception, flow-based analysis has dramatically transformed the way that sample analysis is handled. What used to be manual, slow and prone to error has become automated, rapid and precise. Though many improvements and modifications have already been explored, a most promising development has been the flow-batch analyzer. Through use of an instantaneous stop-mixing chamber and computer-controlled, flow-based sampling, it achieves extraordinarily high sampling rates. We review its historical evolution, components, features and operation, and analytical applications.
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- 2012
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8. Automatic microemulsion preparation for metals determination in fuel samples using a flow-batch analyzer and graphite furnace atomic absorption spectrometry
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Luciano F. Almeida, David P. Harding, Mário César Ugulino de Araújo, Francisco Antônio da Silva Cunha, Rafael Arromba de Sousa, and Solange Cadore
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Analyte ,Chromatography ,Chemistry ,Analytical chemistry ,Mass spectrometry ,Biochemistry ,Analytical Chemistry ,Dilution ,Environmental Chemistry ,Microemulsion ,Sample preparation ,Gasoline ,Graphite furnace atomic absorption ,Naphtha ,Spectroscopy - Abstract
The principal thermodynamic advantages of using microemulsions over standard emulsions for flow metal analysis are the greatly increased analyte stability and emulsive homogeneity that improve both the ease of sample preparation, and the analytical result. In this study a piston propelled flow-batch analyzer (PFBA) for the determination of Cu, Cr and Pb in gasoline and naphtha by graphite furnace atomic absorption spectrometry (GF AAS) was explored. Investigative phase modeling for low dilution was conducted both for gasoline and naphtha microemulsions. Rheological considerations were also explored including a mathematical flow derivation to fine tune the system's operational parameters, and the GF AAS coupling. Both manual and automated procedures for microemulsion preparation were compared. The results of the paired t test at a 95% confidence level showed no significant differences between them. Further recovery test results confirmed a negligible matrix effect of the sample on the analyte absorption signals and an efficient stabilization of the samples (with metals) submitted to microemulsion treatment. The accuracy of the developed procedure was attested by good recovery percentages in the ranges of 100.0 ± 3.5% for Pb in the naphtha samples, and 100.2 ± 3.4% and 100.7 ± 4.6% for Cu and Cr, respectively in gasoline samples.
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- 2012
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9. Flow injection photometric determination of NaCl, KCl and glucose in injectable drugs exploiting Schlieren signals
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Luciano F. Almeida, Sérgio R. B. Santos, Karla Danielle Tavares de Melo, Mário César Ugulino de Araújo, Elaine Cristina Lima do Nascimento, Paulo Henrique Gonçalves Dias Diniz, Yebá Ngoamãn Martins Fagundes, and Adriano de Araújo Gomes
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Flow injection analysis ,Chemistry ,Clinical Biochemistry ,Analytical chemistry ,Pharmaceutical Science ,Photometric system ,Photometer ,Sodium Chloride ,Potassium Chloride ,Analytical Chemistry ,Volumetric flow rate ,law.invention ,Glucose ,Pharmaceutical Preparations ,Sampling (signal processing) ,law ,Schlieren ,Flow Injection Analysis ,Drug Discovery ,Partial least squares regression ,Spectroscopy ,Optical path length - Abstract
A flow injection photometric system that exploits Schlieren signals for analytical measurement is described. The system was designed to be used as a new strategy for determining the contents of sodium chloride, potassium chloride and glucose, each respectively in injectable drugs. The proposed methodology was based on the difference between the refractive indices of the sample zone and of the carrier stream. With this perspective, a lab-made photometer based on LED-phototransistor technology was employed as a detection system to investigate the different analytical profiles related to the Schlieren effect in low flow rate conditions. The parameters of the flow system, such as flow-rate, optical path length, and sampling loop, were adjusted in order to obtain suitable Schlieren profiles for the measurements. Data evaluation was performed with the application of partial least squares regression (PLS-1). The obtained results demonstrated the predictive ability of the constructed PLS models, and the predicted concentration values were in agreement with the reference values, with a 95% confidence level.
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- 2012
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10. Flow-batch technique for the simultaneous enzymatic determination of levodopa and carbidopa in pharmaceuticals using PLS and successive projections algorithm
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Luciano F. Almeida, Marcos Grunhut, Mário César Ugulino de Araújo, María Eugenia Centurión, Wallace D. Fragoso, and Beatriz Susana Fernández Band
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CARBIDOPA ,Time Factors ,Correlation coefficient ,POLYPHENOL OXIDASE ,Analytical chemistry ,PLS ,Buffers ,High-performance liquid chromatography ,Phosphates ,Analytical Chemistry ,Levodopa ,Chemometrics ,Spectrophotometry ,Linear regression ,Partial least squares regression ,medicine ,Computer Simulation ,Ipomoea batatas ,Least-Squares Analysis ,Confidence region ,Chromatography ,FLOW-BATCH ,medicine.diagnostic_test ,Chemistry ,LEVODOPA ,Ciencias Químicas ,Carbidopa ,Pharmaceutical Preparations ,Linear Models ,Química Analítica ,MLR-SPA ,Oxidation-Reduction ,Algorithm ,CIENCIAS NATURALES Y EXACTAS ,Algorithms ,Catechol Oxidase ,medicine.drug - Abstract
An enzymatic flow-batch system with spectrophotometric detection was developed for simultaneous determination of levodopa [(S)-2 amino-3-(3,4-dihydroxyphenyl)propionic acid] and carbidopa [(S)-3-(3,4-dihydroxyphenyl)-2-hydrazino-2-methylpropionic acid] in pharmaceutical preparations. The data were analysed by univariate method, partial least squares (PLS) and a novel variable selection for multiple lineal regression (MLR), the successive projections algorithm (SPA). The enzyme polyphenol oxidase (PPO; EC 1.14.18.1) obtained from Ipomoea batatas (L.) Lam. was used to oxidize both analytes to their respective dopaquinones, which presented a strong absorption between 295 and 540 nm. The statistical parameters (RMSE and correlation coefficient) calculated after the PLS in the spectral region between 295 and 540 nm and MLR-SPA application were appropriate for levodopa and carbidopa. A comparative study of univariate, PLS, in different ranges, and MLR-SPA chemometrics models, was carried out by applying the elliptical joint confidence region (EJCR) test. The results were satisfactory for PLS in the spectral region between 295 and 540 nm and for MLR-SPA. Tablets of commercial samples were analysed and the results obtained are in close agreement with both, spectrophotometric and HPLC pharmacopeia methods. The sample throughput was 18 h-1. Fil: Grunhut, Marcos. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Bahía Blanca. Instituto de Química del Sur. Universidad Nacional del Sur. Departamento de Química. Instituto de Química del Sur; Argentina Fil: Centurión, María Eugenia. Universidad Nacional del Sur. Departamento de Química; Argentina Fil: Fragoso, Wallace D.. Universidade Federal da Paraíba; Brasil Fil: Almeida, Luciano F.. Universidade Federal da Paraíba; Brasil Fil: de Araújo, Mário C.U.. Universidade Federal da Paraíba; Brasil Fil: Fernández Band, Beatriz Susana. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Bahía Blanca. Instituto de Química del Sur. Universidad Nacional del Sur. Departamento de Química. Instituto de Química del Sur; Argentina
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- 2008
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11. A flow-batch analyzer with piston propulsion applied to automatic preparation of calibration solutions for Mn determination in mineral waters by ET AAS
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Luciano F. Almeida, Paulo Henrique Gonçalves Dias Diniz, Márcia M. Silva, Maria Goreti R. Vale, Mário César Ugulino de Araújo, Morgana B. Dessuy, Renato S. Lima, and Vagner B. Santos
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Chemical process ,Spectrum analyzer ,Analyte ,business.industry ,Chemistry ,Calibration curve ,Analytical chemistry ,Peristaltic pump ,Analytical Chemistry ,law.invention ,Piston ,law ,Calibration ,Miniaturization ,Process engineering ,business - Abstract
The increasing development of miniaturized flow systems and the continuous monitoring of chemical processes require dramatically simplified and cheap flow schemes and instrumentation with large potential for miniaturization and consequent portability. For these purposes, the development of systems based on flow and batch technologies may be a good alternative. Flow-batch analyzers (FBA) have been successfully applied to implement analytical procedures, such as: titrations, sample pre-treatment, analyte addition and screening analysis. In spite of its favourable characteristics, the previously proposed FBA uses peristaltic pumps to propel the fluids and this kind of propulsion presents high cost and large dimension, making unfeasible its miniaturization and portability. To overcome these drawbacks, a low cost, robust, compact and non-propelled by peristaltic pump FBA is proposed. It makes use of a lab-made piston coupled to a mixing chamber and a step motor controlled by a microcomputer. The piston-propelled FBA (PFBA) was applied for automatic preparation of calibration solutions for manganese determination in mineral waters by electrothermal atomic-absorption spectrometry (ET AAS). Comparing the results obtained with two sets of calibration curves (five by manual and five by PFBA preparations), no significant statistical differences at a 95% confidence level were observed by applying the paired t-test. The standard deviation of manual and PFBA procedures were always smaller than 0.2 and 0.1mugL(-1), respectively. By using PFBA it was possible to prepare about 80 calibration solutions per hour.
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- 2007
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12. Digital image-based titrations
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Luciano F. Almeida, Mário César Ugulino de Araújo, Edvan Cirino da Silva, Edvaldo N. Gaião, Wellington da Silva Lyra, and Valdomiro Lacerda Martins
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Titration curve ,Conductometry ,medicine.diagnostic_test ,Chemistry ,fungi ,Potentiometric titration ,Analytical chemistry ,Alkalinity ,Biochemistry ,Analytical Chemistry ,Digital image ,Spectrophotometry ,medicine ,Environmental Chemistry ,Titration ,Quantitative analysis (chemistry) ,Spectroscopy - Abstract
The exploitation of digital images obtained from a CCD camera (WebCam) as a novel instrumental detection technique for titration is proposed for the first time. Named of digital image-based (DIB) titration, it also requires, as a traditional titration (for example, spectrophotometric, potentiometric, conductimetric), a discontinuity in titration curves where there is an end point, which is associated to the chemical equivalence condition. The monitored signal in the DIB titration is a RGB-based value that is calculated, for each digital image, by using a proposed procedure based on the red, green, and blue colour system. The DIB titration was applied to determine HCl and H3PO4 in aqueous solutions and total alkalinity in mineral and tap waters. Its results were compared to the spectrophotometric (SPEC) titration and, by applying the paired t-test, no statistic difference between the results of both methods was verified at the 95% confidence level. Identical standard deviations were obtained by both titrations in the determinations of HCl and H3PO4, with a slightly better precision for DIB titration in the determinations of total alkalinity. The DIB titration shows to be an efficient and promising tool for quantitative chemical analysis and, as it employs an inexpensive device (WebCam) as analytical detector, it offers an economically viable alternative to titrations that need instrumental detection.
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- 2006
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13. Classification of distilled alcoholic beverages and verification of adulteration by near infrared spectrometry
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Márcio José Coelho Pontes, Urijatan Teixeira de Carvalho Polari Souto, Edvaldo N. Gaião, Ricardo Chaves Lima, Sérgio R. B. Santos, Luciano F. Almeida, and Mário César Ugulino de Araújo
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Chromatography ,Chemistry ,Near-Infrared Spectrometry ,Food Science ,Screening analysis - Abstract
Near-infrared (NIR) spectrometry and chemometric methods of classification were used to classify and verify adulteration of 69 samples of alcoholic beverages (whiskey, brandy, rum and vodka). The characterization of the drinks was accomplished by chemometric models based on principal component analysis and soft independent modelling of class analogy elaborated for each different group. Alcoholic beverages adulterated with 5% and 10% (v/v) of water, ethanol or methanol were analyzed and used to verify the models capacity of prediction. Besides, actual samples with suspicions of adulteration were analyzed by gas chromatography and used to test the chemometric models which were able to predict the adulteration in the actual samples. The proposed method was successfully applied in the verification of alcoholic beverages adulteration with 100% of correct prediction at 95% of confidence level. The absence of reagents, low sample consumption, high sampling throughput and good predictive ability enables the developed methodology to be applied as a screening analysis to verify adulteration of the alcoholic beverage, that is, a prior step used to condition the sample to a deeper analysis only when a positive result for adulteration is obtained by the proposed method.
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- 2006
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14. A novel strategy to verification of adulteration in alcoholic beverages based on Schlieren effect measurements and chemometric techniques
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Ricardo Chaves Lima, Sérgio R. B. Santos, Luciano F. Almeida, Simone S. Simões, Elaine Cristina Lima do Nascimento, Mário César Ugulino de Araújo, Márcio José Coelho Pontes, and Renata S da Costa
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Matrix (chemical analysis) ,Flow system ,Chromatography ,Chemistry ,Schlieren ,Analytical chemistry ,Spectroscopy ,Analytical Chemistry - Abstract
A novel strategy to evaluation of adulteration in alcoholic beverages based on the measurement of the Schlieren effect using an automated FIA system with photometric detection is proposed. The assay is based on the Schlieren effect produced when beverage samples are injected in a single-line FIA system that uses water as carrier stream and a light-emitting diode–phototransistor photometer controlled by microcomputer as detector. The flow system presents limited mixing conditions which make possible to create gradients of refractive index (Schlieren effect) in the injected sample zone. These gradients are reproducible, characteristic of each alcoholic beverage and undergo specific modifications when adulterations with water or ethanol are imposed. Schlieren effect data of brandies, cachacas, rums, whiskies and vodkas were treated by SIMCA to elaborate class models applied in the evaluation of alcoholic beverages adulteration. Samples of the original matrix of each sort of beverages were adulterated in laboratory by adding water, methanol and ethanol in levels of 5% and 10% (v/v). These samples were used as test set to validate SIMCA class models. The verification of authenticity using Schlieren effect measurements presented good results making possible to identify 100% of the beverages samples adulterated in laboratory and 93% of the actual adulterated alcoholic beverages with confidence levels of 95%. As principal advantage, the automated system does not use reagents to carry out the analysis.
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- 2004
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15. Implementation of an automatic standard addition method in a flow–batch system: application to copper determination in an alcoholic beverage by atomic absorption spectrometry
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Luciano F. Almeida, Mário César Ugulino de Araújo, Pablo N.T. Moreira, Edvan Cirino da Silva, and Valdomiro Lacerda Martins
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Analyte ,Chemistry ,Analytical chemistry ,Standard solution ,Biochemistry ,Standard deviation ,Analytical Chemistry ,law.invention ,law ,Standard addition ,Yield (chemistry) ,Batch processing ,Calibration ,Environmental Chemistry ,Atomic absorption spectroscopy ,Spectroscopy - Abstract
A novel strategy for implementing the automatic standard addition method (SAM) is described. By using a flow–batch system that presents the intrinsic favourable characteristics of the flow and batch techniques, the proposed strategy performs fast standard additions with sufficient flexibility and versatility and employs only one standard solution per analyte. To calculate the analyte concentration, a mathematical model based on a classical SAM and flow variables of the system was developed. The proposed flow–batch SAM was applied to copper determination by flame atomic absorption spectrometry (AAS) in sugar cane-made alcoholic beverages, known as “Cachaca”, available in Brazil. A SAM has been recommended for these analyses because “Cachacas” presents a significantly different composition causing matrix effects and copper determination by calibration using matrix-matching standards can yield inaccurate results. The results show good agreement between the obtained values with the proposed flow–batch SAM and a manual SAM. The mean relative errors and overall standard deviations were always
- Published
- 2003
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