The Model of “Minimal Oscillator” Derived from the Kinetic Mechanism of the H₂O₂-NaSCN-NaOH-CuSO₄Dynamical System

Abstract: Dissipative chemical reactions, which involve oscillatory variations of the concentrations of the intermediates in time, are usually characterized with complicated kinetic mechanisms. However, the essential source of the oscillations can often be reduced to only a few reaction steps providing the alternative domination of the positive and negative feedback loops. In an extreme case such a reduction leads to the so-called "minimal oscillator," the concept used in the past for the well-known Belousov-Zhabotinsky… Show more

“…The reaction Cu21 is taken from Refs. 16,20–22. The reactions Cu22 (red letters), T31 (red dotted arrow), and T32 (red solid arrow) are incorporated in the present work [Color figure can be viewed at wileyonlinelibrary.com]…”

“…16 The drop in Pt electrode potential was also observed by Takayama et al 18 For the oscillating chemiluminescence reactions, it was indicated that the superoxide anion O 2 ⋅ − promotes cycloaddition, followed by the detachment of nitrogen molecules that were incorporated into the phthalate dianion. 3,19 Previous theories 3,20 have suggested that intermittent intense fluorescence was due to the reaction of luminol with the hydroperoxyl radical HO 2 ⋅.…”

“…Wiśniewski et al 16 calculated the potential and [Cu(OH) 3 − ]/[Cu(OH) 2 − ] ratio, and the concentration of HO 2 Cu(OH) 2 − , which was compared with the experimental absorbance at 375 nm 21,22 . Jędrusiak et al 20 calculated the concentration of HO 2 Cu(OH) 2 − , − OS(O)CN, and HO 2 ·. Recently, Cervellati et al 23,24 also carried out a detailed calculation for the Orbàn‐Epstein reaction system.…”

Mechanism of the oscillating chemiluminescence reaction in the luminol‐H₂O₂‐KSCN‐CuSO₄‐NaOH system

“…The reaction Cu21 is taken from Refs. 16,20–22. The reactions Cu22 (red letters), T31 (red dotted arrow), and T32 (red solid arrow) are incorporated in the present work [Color figure can be viewed at wileyonlinelibrary.com]…”

“…16 The drop in Pt electrode potential was also observed by Takayama et al 18 For the oscillating chemiluminescence reactions, it was indicated that the superoxide anion O 2 ⋅ − promotes cycloaddition, followed by the detachment of nitrogen molecules that were incorporated into the phthalate dianion. 3,19 Previous theories 3,20 have suggested that intermittent intense fluorescence was due to the reaction of luminol with the hydroperoxyl radical HO 2 ⋅.…”

“…Wiśniewski et al 16 calculated the potential and [Cu(OH) 3 − ]/[Cu(OH) 2 − ] ratio, and the concentration of HO 2 Cu(OH) 2 − , which was compared with the experimental absorbance at 375 nm 21,22 . Jędrusiak et al 20 calculated the concentration of HO 2 Cu(OH) 2 − , − OS(O)CN, and HO 2 ·. Recently, Cervellati et al 23,24 also carried out a detailed calculation for the Orbàn‐Epstein reaction system.…”

Mechanism of the oscillating chemiluminescence reaction in the luminol‐H₂O₂‐KSCN‐CuSO₄‐NaOH system

“…Also, this reaction can generate luminescent spatiotemporal patterns of novel type (thermokinetic kinematic/phase waves) 17,18 . In further studies, we also proposed the stepwise reduction of the original kinetic mechanism to the core explaining only oscillations in terms of ten, 16 five, 19 and finally three dynamical variables, 20 composing the minimal oscillator, meaning that the latter mechanism cannot be further reduced to two variables without a loss of the oscillatory instabilities.…”

Oscillatory chemical reaction as a sensor of Cu(II)–EDTA complex formation and ligand degradation in copper ion‐catalyzed oxidation of thiocyanate ions with hydrogen peroxide

“…Jędrusiak et al. calculated the concentration of HO 2 Cu(OH) 2 − , − OS(O)CN, and HO 2 · 8 . Recently, Cervellati et al.…”

Oscillating chemiluminescence reaction in the L‐012–H₂O₂–KSCN–CuSO₄–NaOH system