Guillermo López-Cueto scite author profile

The oxidative coupling reactions of p-aminophenol with m-and p-aminophenol in the presence of octacyanomolybdate(v) were used as the basis of a differential kinetic method for the simultaneous determination of 0-, m-and p-aminophenol (0-, m-and p-AP) in binary and ternary mixtures. The influence of MoV concentration, acidity, ionic strength and temperature was studied in order to establish optimum conditions. Several oxidants, including Ce4+, CrV1, MnVI1, HzOz and metaperiodate and Fell', Mn'", MoV and WV cyano complexes were tried. The MoV cyano complex was chosen because it has a suitable redox potential and gives rise to kinetically useful runs. The reaction must be implemented under sub-stoichiometric concentrations of oxidant and so the concentration of each aminophenol in the mixture influences the reaction of the others, originating in a system with a high degree of non-linearity. As a result, most methods of data treatment cannot be used and multivariate calibration (PLS) was applied to the data acquired by a diode-array spectrophotometer between 340 and 500 nm. PLS calibration with a number of factors ranging between six and nine allowed satisfactory results for all kinds of mixtures. Aminophenols can be determined over the concentration range 0.1-1.0 mmol 1-1 for o-AP, 0.3-1.0 mmol l-1 for m-AP and 0.25-3.0 mmol l-1 for p-AP with errors of less than 10% in all instances. No systematic errors were detected.

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Fast disproportionation of hexacyanomanganate(III) in acidic solution. Formation of hexacyanomanganate(IV) and kinetics of its decomposition

López-Cueto¹,

Ubide²

1986

Can. J. Chem.

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GUILLERM~ L~PEZ-CUETO and CARLOS UBIDE. Can. J. Chem. 64, 2301 (1986).When potassium hexacyanomanganate(II1) dissolves in acidic solution it rapidly disproportionates into hexacyanomanganate(1V) and Mn(I1). Hexacyanomanganatc(1V) then slowly decomposes to yield Mn(I1) and (CN)2. Kinetics of the latter reaction has been studied. The reaction is found to be first order with respect to M~( c N~-, Hi, and Mn ( respectively. A mechanism with three parallel pathways is proposed, the deduced rate law being similar to the experimental one.Activation parameters, AH= and AS= for the rate constants k,, , k h , and k, are also reported.

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Fenton’s reagent for kinetic determinations

López-Cueto

Ostra

Ubide

et al. 2004

Analytica Chimica Acta

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Individual Kinetic Determinations Using Partial Least Squares Calibration

López-Cueto¹,

Rodríguez-Medina²,

Ubide³

1997

Analyst

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The slow oxidation reactions of cysteine, tyrosine and tryptophan by hexacyanomanganate(IV) were used to investigate partial least squares calibration (PLS) as a method to be applied to the kinetic determination of individual species. All the three reactions are first order in hexacyanomanganate(IV) concentration and the reactions with cysteine and tyrosine are first order in amino acid concentration. The stoichiometry was studied in each case. The determination results were always compared with those obtained by applying the initial rate method to the same kinetic runs. When suitable kinetic curves are obtained and the initial rate is easily determined, both methods give similar results; however, when the initial rate is not easily determined (too fast reaction, slope that changes very quickly, etc.) the results obtained with PLS are better (better precision and wider dynamic range). Moreover, and in contrast to the initial rate method, PLS allowed tryptophan to be determined in the presence of some different feed matrices, provided the calibration set was of the same nature as the samples. This advantage is of general application and makes the analytical method more robust. PLS was tested on uncatalysed reactions but it could equally be applied to catalysed reactions.

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