Systematic design of chemical oscillators. Part 13. Complex periodic and aperiodic oscillation in the chlorite-thiosulfate reaction M Orban, IR Epstein The Journal of Physical Chemistry 86 (20), 3907-3910, 1982 | 394* | 1982 |
Systematic design of chemical oscillators. Part 8. Batch oscillations and spatial wave patterns in chlorite oscillating systems P De Kepper, IR Epstein, K Kustin, M Orban The Journal of Physical Chemistry 86 (2), 170-171, 1982 | 214 | 1982 |
Oscillating chemical reactions IR Epstein, K Kustin, P De Kepper, M Orbán Scientific American 248 (3), 112-123, 1983 | 211 | 1983 |
Chemical oscillations during the uncatalyzed reaction of aromatic compounds with bromate. 1. Search for chemical oscillators M Orban, E Koros Journal of Physical Chemistry 82 (14), 1672-1674, 1978 | 170 | 1978 |
Systematic design of chemical oscillators. 64. Design of pH-regulated oscillators G Rabai, M Orban, IR Epstein Accounts of chemical research 23 (8), 258-263, 1990 | 160 | 1990 |
A new iodate oscillator: The Landolt reaction with ferrocyanide in a CSTR EC Edblom, M Orban, IR Epstein Journal of the American Chemical Society 108 (11), 2826-2830, 1986 | 153 | 1986 |
Systematic design of chemical oscillators. 5. Bistability and oscillations in the autocatalytic chlorite-iodide reaction in a stirred-flow reactor CE Dateo, M Orban, P De Kepper, IR Epstein Journal of the American Chemical Society 104 (2), 504-509, 1982 | 143 | 1982 |
Systematic design of chemical oscillators using complexation and precipitation equilibria K Kurin-Csörgei, IR Epstein, M Orbán Nature 433 (7022), 139-142, 2005 | 135 | 2005 |
Uncatalyzed Oscillatory Chemical Reactions E Koros, M Orban Nature 273 (1), 371-372, 1978 | 121 | 1978 |
Systematic design of chemical oscillators. 45. Kinetics and mechanism of the oscillatory bromate-sulfite-ferrocyanide reaction EC Edblom, Y Luo, M Orban, K Kustin, IR Epstein The Journal of Physical Chemistry 93 (7), 2722-2727, 1989 | 118 | 1989 |
Oscillations and bistability in the copper (II)-catalyzed reaction between hydrogen peroxide and potassium thiocyanate M Orban Journal of the American Chemical Society 108 (22), 6893-6898, 1986 | 114 | 1986 |
Chemical Oscillations during the Uncatalyzed Reaction of Aromatic Compounds with Bromate. 2. A Plausible Skeleton Mechanism M Orbán, E Koros, RM Noyes JOURNAL OF PHYSICAL CHEMISTRY US 83, 3056, 1979 | 108 | 1979 |
Stationary and moving structures in uncatalyzed oscillatory chemical reactions M Orban | 104 | 1980 |
Mechanistic study of oscillations and bistability in the copper (II)-catalyzed reaction between hydrogen peroxide and potassium thiocyanate Y Luo, M Orban, K Kustin, IR Epstein Journal of the American Chemical Society 111 (13), 4541-4548, 1989 | 100 | 1989 |
An iodine-free chlorite-based oscillator. The chlorite-thiosulfate reaction in a continuous flow stirred tank reactor M Orbán, P Dekepper, IR Epstein J. Phys. Chem 86 (4), 431-433, 1982 | 94 | 1982 |
Bromate− 1, 4-cyclohexanedione− ferroin gas-free oscillating reaction. 1. Basic features and crossing wave patterns in a reaction− diffusion system without gel K Kurin-Csörgei, AM Zhabotinsky, M Orbán, IR Epstein The Journal of Physical Chemistry 100 (13), 5393-5397, 1996 | 92 | 1996 |
Chemical oscillators in group VIA: The Cu (II)-catalyzed reaction between hydrogen peroxide and thiosulfate ion M Orbán, IR Epstein J. Am. Chem. Soc.;(United States) 109 (1), 1987 | 92 | 1987 |
pH-regulated chemical oscillators M Orbán, K Kurin-Csörgei, IR Epstein Accounts of Chemical Research 48 (3), 593-601, 2015 | 86 | 2015 |
Systematic design of chemical oscillators. 11. Chlorite oscillators: new experimental examples, tristability, and preliminary classification M Orban, C Dateo, P De Kepper, IR Epstein Journal of the American Chemical Society 104 (22), 5911-5918, 1982 | 83 | 1982 |
General model for the chlorite ion based chemical oscillators G Rabai, M Orban The Journal of Physical Chemistry 97 (22), 5935-5939, 1993 | 74 | 1993 |