Authors:
Hegedus, L
Forsterling, HD
Kokai, E
Pelle, K
Taba, G
Wittmann, M
Noszticzius, Z
Citation: L. Hegedus et al., Chemical mechanism of the radical feedback loop in the classical BZ reaction. Malonyl bromite and oxalic acid as flow-through intermediates, PHYS CHEM P, 2(18), 2000, pp. 4023-4028
Citation: I. Szalai et al., Oscillations in the bromomalonic acid/bromate system catalyzed by [Ru(phen)(3)](2+), J PHYS CH A, 104(7), 2000, pp. 1495-1498
Authors:
Hegediis, L
Forsterling, HD
Wittmann, M
Noszticzius, Z
Citation: L. Hegediis et al., Ce4+-malonic acid reaction in the presence of O-2. Reaction channels leading to tartronic and oxalic acid intermediates, J PHYS CH A, 104(44), 2000, pp. 9914-9920
Authors:
Sirimungkala, A
Forsterling, HD
Dlask, V
Field, RJ
Citation: A. Sirimungkala et al., Bromination reactions important in the mechanism of the Belousov-Zhabotinsky system, J PHYS CH A, 103(8), 1999, pp. 1038-1043
Citation: Am. Petrascu et al., Effect of oxygen on the Belousov-Zhabotinsky reaction at low cerium concentrations, J PHYS CH A, 103(34), 1999, pp. 6757-6765
Authors:
Nagygyory, S
Wittmann, M
Pinter, S
Visegrady, A
Dancso, A
Thuy, NB
Noszticzius, Z
Hegedus, L
Forsterling, HD
Citation: S. Nagygyory et al., Alternative reaction channels and carbene intermediates in the Ce4+-malonic acid and Ce4+-bromomalonic acid reactions. 1. CO2 measurements, J PHYS CH A, 103(25), 1999, pp. 4885-4892