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Istvan Lengyel
Istvan Lengyel
Retired, formerly Research Fellow at Sabic Technology and Innovation
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Title
Cited by
Cited by
Year
Modeling of turing structures in the chlorite—iodide—malonic acid—starch reaction system
I Lengyel, IR Epstein
Science 251 (4994), 650-652, 1991
6251991
A chemical approach to designing Turing patterns in reaction-diffusion systems.
I Lengyel, IR Epstein
Proceedings of the National Academy of Sciences 89 (9), 3977-3979, 1992
3851992
Experimental and modeling study of oscillations in the chlorine dioxide-iodine-malonic acid reaction
I Lengyel, G Rabai, IR Epstein
Journal of the American Chemical Society 112 (25), 9104-9110, 1990
2121990
Rate constants for reactions between iodine-and chlorine-containing species: A detailed mechanism of the chlorine dioxide/chlorite-iodide reaction
I Lengyel, J Li, K Kustin, IR Epstein
Journal of the American Chemical Society 118 (15), 3708-3719, 1996
1361996
Kinetics of iodine hydrolysis
I Lengyel, IR Epstein, K Kustin
Inorganic chemistry 32 (25), 5880-5882, 1993
1321993
Batch oscillations in the reaction of chlorine dioxide with iodine and malonic acid
I Lengyel, G Rabai, IR Epstein
Journal of the American Chemical Society 112 (11), 4606-4607, 1990
1171990
Transient Turing structures in a gradient-free closed system
I Lengyel, S Kadar, IR Epstein
Science 259 (5094), 493-495, 1993
1151993
Quasi-two-dimensional Turing patterns in an imposed gradient
I Lengyel, S Kádár, IR Epstein
Physical review letters 69 (18), 2729, 1992
731992
Computational chemistry predictions of reaction processes in organometallic vapor phase epitaxy
H Simka, BG Willis, I Lengyel, KF Jensen
Progress in crystal growth and characterization of materials 35 (2-4), 117-149, 1997
611997
Diffusion‐induced instability in chemically reacting systems: Steady‐state multiplicity, oscillation, and chaos
I Lengyel, IR Epstein
Chaos: An Interdisciplinary Journal of Nonlinear Science 1 (1), 69-76, 1991
491991
New systems for pattern formation studies
IR Epstein, I Lengyel, S Kádár, M Kagan, M Yokoyama
Physica A: Statistical Mechanics and its Applications 188 (1-3), 26-33, 1992
461992
Turing structures in simple chemical reactions
I Lengyel, IR Epstein
Accounts of chemical research 26 (5), 235-240, 1993
421993
A chemical mechanism for in situ boron doping during silicon chemical vapor deposition
I Lengyel, KF Jensen
Thin Solid Films 365 (2), 231-241, 2000
402000
Kinetics and mechanism of autocatalytic oxidation of formaldehyde by nitric acid
M Horváth, I Lengyel, G Bazsa
International journal of chemical kinetics 20 (9), 687-697, 1988
381988
Brine purification
B Hook, D Tirtowidjojo, F Koester, SK Chaudhary, A Mehta, J Chauvel, ...
US Patent 8,343,328, 2013
332013
A computational study of gas-phase and surface reactions in deposition and etching of GaAs and AlAs in the presence of HCl
C Cavallotti, I Lengyel, M Nemirovskaya, KF Jensen
Journal of crystal growth 268 (1-2), 76-95, 2004
332004
Catalyst ignition and extinction: A microkinetics-based bifurcation study of adiabatic reactors for oxidative coupling of methane
LA Vandewalle, I Lengyel, DH West, KM Van Geem, GB Marin
Chemical Engineering Science 199, 635-651, 2019
312019
Silver promoted catalysts for oxidative coupling of methane
W Liang, VSR Sarsani, D West, H Perez, A Mamedov, I Lengyel, J Lowrey
US Patent 10,625,244, 2020
292020
Systematic design of chemical oscillators. 82. Dynamical study of the chlorine dioxide-iodide open system oscillator
I Lengyel, J Li, IR Epstein
The Journal of Physical Chemistry 96 (17), 7032-7037, 1992
281992
Systematic design of chemical oscillators. 72. A transition-metal oscillator: oscillatory oxidation of manganese (II) by periodate in a CSTR
M Orban, I Lengyel, IR Epstein
Journal of the American Chemical Society 113 (6), 1978-1982, 1991
271991
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Articles 1–20