Thuy Lawson scite author profile

Thuy Lawson

4Publications

54Citation Statements Received

198Citation Statements Given

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193

Affiliations

Budapest University of Technology and Economics, Babeș-Bolyai University

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Reaction Routes Leading to CO₂ and CO in the Briggs−Rauscher Oscillator: Analogies between the Oscillatory BR and BZ Reactions

et al. 2009

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With Fenton-type experiments, it is shown that the intense CO2/CO evolution in the Briggs-Rauscher (BR) reaction is due to decarboxylation/decarbonylation of organic free radicals. The metal ion applied in the Fenton-type experiments was Fe2+ or Ti3+ or Mn2+ combined with H2O2 or S2O(8)(2-) as a peroxide, whereas the organic substrate was malonic acid (MA) or a 1:1 mixture of MA and iodomalonic acid (IMA). Experiments with a complete BR system applying MA or the MA/IMA mixture indicate that practically all CO2 and CO comes from IMA. The decarboxylation/decarbonylation mechanisms of various iodomalonyl radicals can be analogous to that of the bromomalonyl radicals studied already in the Belousov-Zhabotinsky (BZ) reaction. It is found that an intense CO2/CO evolution requires the simultaneous presence of H2O2, IO3-, Mn2+, and IMA. It is suggested that the critical first step of this complex reaction takes place in the coordination sphere of Mn2+. That first step can initiate a chain reaction where organic and hydroperoxyl radicals are the chain carriers. A chain reaction was already found in a BZ oscillator as well. Therefore, the analogies between the BR and BZ oscillators are due to the fact that in both mechanisms, free radicals and, in most cases, also transition-metal complexes play an important role.

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Micropatterned Polyvinyl Butyral Membrane for Acid−Base Diodes

et al. 2010

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Until now, polyvinyl alcohol (PVA) gel cylinders have been used in electrolyte diodes as a connecting element between the acidic and alkaline reservoirs. In this paper, a new connecting element is reported: a breath figure templated polyvinyl butyral (PVB) membrane prepared with dip-coating from a dichloromethane solution of the polymer in a humid atmosphere. The procedure gives a 1.5-2 μm thick membrane with a hexagonal pattern, the average characteristic length of which is 1 μm. After an acidic etching, it was found to be a good connecting element. The voltage-current characteristics and dynamic properties of PVA and PVB were measured and compared. The PVB membrane has a faster response to voltage changes than the PVA gel, but in both cases, there was a slow drift in the current that prevented it from reaching a steady state. Reproducible characteristics can be obtained, however, after the current reaches a well-defined quasi-steady state.

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Platinum as a HOI/I₂ Redox Electrode and Its Mixed Potential in the Oscillatory Briggs–Rauscher Reaction

et al. 2017

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Pt is a common redox electrode used to follow oscillations qualitatively in the Briggs-Rauscher (BR) and the Bray-Liebhafsky (BL) reactions from the time of their discovery. Although the potential oscillations of the electrode reflect the temporal pattern of the reaction properly, there is no general agreement as to how that potential is determined by the components of the reaction mixture. In this article, first we investigate how iodine species in different oxidation states affect the potential of a Pt electrode. It was found that I(+3) and I(+5) species do not affect the potential; only I, I, and HOI may have an influence. Although the latter three species are always present simultaneously as participants of the rapid iodine hydrolysis equilibrium, it was found that below and above the so-called hydrolysis limit potential (HLP, where the iodide and HOI concentrations are equal) the actual potential determining redox couple is different. Below the HLP, it is the traditional I/I redox couple, but above the HLP, it is the HOI/I redox pair that determines the potential of a Pt electrode. That change in the potential control mechanism was proven experimentally by exchange current measurements. In addition, from the potential response of the Pt electrode below and above the HLP, it was possible to calculate the equilibrium constant of the iodine hydrolysis as K° = (4.97 ± 0.20) × 10 M, in rather good agreement with earlier measurements. We also studied the perturbing effect of HO on the previously mentioned potentials. The concentration of HO was 0.66 M, as in the BR reaction studied here. It was found that below the HLP, the perturbing effect of HO was minimal but above the HLP, HO shifted the mixed potential considerably down toward the HLP. In our experiments with the BR reaction, the potential oscillations of the Pt electrode crossed the HLP, indicating that from time to time the HOI concentration exceeds that of the iodide. We can conclude that although the perturbing effect of HO prevents the calculation of concentrations from Pt potentials above the HLP, [I]/[I] ratios can be calculated as a good approximation from Pt potentials below the HLP.

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Iodomalonic Acid as an Anti-Inhibitor in the Resorcinol Inhibited Briggs−Rauscher Reaction

et al. 2009

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It was found that the inhibitory effect of resorcinol is less pronounced if it is added in a later stage of the Briggs-Rauscher reaction, which indicates that an accumulating intermediate--most probably iodomalonic acid--can suppress the inhibition. In fact, when iodomalonic acid was added to the reaction mixture, the inhibitory period was shortened considerably even at micromolar levels of the iodomalonic acid concentration. Moreover, iodomalonic acid can accelerate the rate of the reaction when applied in the same low concentrations, suggesting that it can be an autocatalytic intermediate of the Briggs-Rauscher reaction.

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Thuy Lawson

Reaction Routes Leading to CO₂ and CO in the Briggs−Rauscher Oscillator: Analogies between the Oscillatory BR and BZ Reactions

Micropatterned Polyvinyl Butyral Membrane for Acid−Base Diodes

Platinum as a HOI/I₂ Redox Electrode and Its Mixed Potential in the Oscillatory Briggs–Rauscher Reaction

Iodomalonic Acid as an Anti-Inhibitor in the Resorcinol Inhibited Briggs−Rauscher Reaction

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Thuy Lawson

Reaction Routes Leading to CO2 and CO in the Briggs−Rauscher Oscillator: Analogies between the Oscillatory BR and BZ Reactions

Micropatterned Polyvinyl Butyral Membrane for Acid−Base Diodes

Platinum as a HOI/I2 Redox Electrode and Its Mixed Potential in the Oscillatory Briggs–Rauscher Reaction

Iodomalonic Acid as an Anti-Inhibitor in the Resorcinol Inhibited Briggs−Rauscher Reaction

Contact Info

Product

Resources

About

Reaction Routes Leading to CO₂ and CO in the Briggs−Rauscher Oscillator: Analogies between the Oscillatory BR and BZ Reactions

Platinum as a HOI/I₂ Redox Electrode and Its Mixed Potential in the Oscillatory Briggs–Rauscher Reaction