István Szalai
István Szalai
Eötvös University, Institute of Chemistry, Budapest
Verified email at chem.elte.hu
TitleCited byYear
An experimental design method leading to chemical Turing patterns
J Horváth, I Szalai, P De Kepper
Science 324 (5928), 772-775, 2009
1642009
Pulsating pH-responsive nanogels
I Varga, I Szalai, R Mészaros, T Gilányi
The Journal of Physical Chemistry B 110 (41), 20297-20301, 2006
672006
The 1, 4-Cyclohexanedione− Bromate− Acid Oscillatory System. 3. Detailed Mechanism
I Szalai, E Körös
The Journal of Physical Chemistry A 102 (35), 6892-6897, 1998
661998
Wave patterns driven by chemomechanical instabilities in responsive gels
V Labrot, P De Kepper, J Boissonade, I Szalai, F Gauffre
The Journal of Physical Chemistry B 109 (46), 21476-21480, 2005
642005
The 1, 4-cyclohexanedione-bromate-acid oscillatory system II. Chemical waves
K Kurin-Csörgei, I Szalai, E Kőrös
Reaction Kinetics and Catalysis Letters 54 (1), 217-224, 1995
451995
Oscillatory dynamics induced in a responsive gel by a non-oscillatory chemical reaction: experimental evidence
J Horváth, I Szalai, J Boissonade, P De Kepper
Soft Matter 7 (18), 8462-8472, 2011
382011
Pattern formation in the ferrocyanide-iodate-sulfite reaction: The control of space scale separation
I Szalai, P De Kepper
Chaos: An Interdisciplinary Journal of Nonlinear Science 18 (2), 026105, 2008
372008
Spatial bistability: A source of complex dynamics. From spatiotemporal reaction-diffusion patterns to chemomechanical structures
J Boissonade, P De Kepper, F Gauffre, I Szalai
Chaos: An Interdisciplinary Journal of Nonlinear Science 16 (3), 037110, 2006
372006
Turing Patterns, Spatial Bistability, and Front Instabilities in a Reaction− Diffusion System
I Szalai, P De Kepper
The Journal of Physical Chemistry A 108 (25), 5315-5321, 2004
372004
Dynamics and mechanism of bromate oscillators with 1, 4-cyclohexanedione
I Szalai, K Kurin-Csörgei, IR Epstein, M Orban
The Journal of Physical Chemistry A 107 (47), 10074-10081, 2003
352003
The 1, 4-cyclohexanedione-bromate-acid oscillatory system I. Its organic chemistry
K Kurin-Csörgei, I Szalai, I Molnár-Perl, E Kőrös
Reaction Kinetics and Catalysis Letters 53 (1), 115-121, 1994
351994
Patterns of the Ferrocyanide− Iodate− Sulfite Reaction Revisited: The Role of Immobilized Carboxylic Functions
I Szalai, P De Kepper
The Journal of Physical Chemistry A 112 (5), 783-786, 2008
322008
Spatial bistability, oscillations and excitability in the Landolt reaction
I Szalai, P De Kepper
Physical Chemistry Chemical Physics 8 (9), 1105-1110, 2006
322006
Pattern formation in the thiourea–iodate–sulfite system: Spatial bistability, waves, and stationary patterns
J Horváth, I Szalai, P De Kepper
Physica D: Nonlinear Phenomena 239 (11), 776-784, 2010
292010
Sustained self-organizing pH patterns in hydrogen peroxide driven aqueous redox systems
I Szalai, J Horváth, N Takács, P De Kepper
Physical Chemistry Chemical Physics 13 (45), 20228-20234, 2011
272011
Spatial bistability in a pH autocatalytic system: From long to short range activation
I Szalai, F Gauffre, V Labrot, J Boissonade, P De Kepper
The Journal of Physical Chemistry A 109 (35), 7843-7849, 2005
262005
Oscillations in the Bromomalonic Acid/Bromate System Catalyzed by [Ru (phen) 3] 2+
I Szalai, J Oslonovitch, HD Försterling
The Journal of Physical Chemistry A 104 (7), 1495-1498, 2000
242000
Sustained Spatiotemporal Patterns in the Bromate− Sulfite Reaction
Z Virányi, I Szalai, J Boissonade, P De Kepper
The Journal of Physical Chemistry A 111 (33), 8090-8094, 2007
232007
Mechanistic studies on the bromate–1, 4-cyclohexanedione–ferroin oscillatory system
I Szalai, K Kurin-Csörgei, M Orbán
Physical Chemistry Chemical Physics 4 (8), 1271-1275, 2002
232002
Chemical morphogenesis: recent experimental advances in reaction–diffusion system design and control
I Szalai, D Cuinas, N Takács, J Horváth, P De Kepper
Interface Focus 2 (4), 417-432, 2012
172012
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