Laszlo Gyorgyi

Chaos in chemistry and biochemistry

Mathematics of coupled and forced oscillators, W.R. Derrick experimental description of chaos in the Belousov-Zhabotinsky reaction, J-C. Roux modelling and interpretation of chaos in the Belousov-Zhabotinsky reaction, L. Gyorgyi chaos in forced and coupled chemical oscillators, M. Marek chaos in electrochemical systems, J. Hudson chaos in surface reactions, M. Eiswirth and C. Ertl chaos in biochemical systems - the peroxidase reaction as a case study, R. Larter from periodicity to chaos in biochemical systems, A. Goldbeter new theoretical approach for describing physico-chemical reaction dynamics with chaotic behaviour, V. Gontar.

Thorough study of bromide control in bromate oscillators, III. Simulation by the oregonator model of the behavior of reacting BZ systems perrturber by mercury (II) ions

The behavior of the bromate-maloni acid-cerium (III) oscillator in the presence of mercury (II)-a bromide-removing ion-can be simulated by the Oregonator model if the dynamics of bromocomplex-formation and dissociation reactions is taken into account.AbstractПоведение осциллятора бромат-малоновая кислота-церий (III) вписутствии ртыти(II)-иона удаляющего вромид-может быть симулирована с помощьы модели Орегонатора, если принять в расгет динамику реакций овразования и диссоциации бромных комплексов.

Study of Bromide Control in Bromate Oscillators

The control function of bromide ions in bromate oscillators has been questioned recently, and suggestions have been made to replace the Oregonator model by other ones in order to account for the occurrence of oscillations in silver ion containing BZ systems [1,2].