Control of Turing structures by periodic illumination AK Horvath, M Dolnik, AP Munuzuri, AM Zhabotinsky, IR Epstein Physical review letters 83 (15), 2950, 1999 | 103 | 1999 |
Kinetics and mechanism of the decomposition of chlorous acid AK Horvath, I Nagypal, G Peintler, IR Epstein, K Kustin The Journal of Physical Chemistry A 107 (36), 6966-6973, 2003 | 55 | 2003 |
Three Autocatalysts and Self-Inhibition in a Single Reaction: A Detailed Mechanism of the Chlorite− Tetrathionate Reaction AK Horváth, I Nagypál, IR Epstein Inorganic chemistry 45 (24), 9877-9883, 2006 | 43 | 2006 |
Kinetics and mechanism of the reaction between thiosulfate and chlorine dioxide AK Horváth, I Nagypal The Journal of Physical Chemistry A 102 (37), 7267-7272, 1998 | 37 | 1998 |
Pattern formation in the iodate–sulfite–thiosulfate reaction–diffusion system H Liu, JA Pojman, Y Zhao, C Pan, J Zheng, L Yuan, AK Horváth, Q Gao Physical Chemistry Chemical Physics 14 (1), 131-137, 2012 | 36 | 2012 |
Kinetics and mechanism of the decomposition of tetrathionate ion in alkaline medium D Varga, AK Horváth Inorganic chemistry 46 (18), 7654-7661, 2007 | 35 | 2007 |
Autocatalysis and Self-Inhibition: Coupled Kinetic Phenomena in the Chlorite− Tetrathionate Reaction AK Horváth, I Nagypál, G Peintler, IR Epstein Journal of the American Chemical Society 126 (20), 6246-6247, 2004 | 35 | 2004 |
Effect of chloride ion on the kinetics and mechanism of the reaction between chlorite ion and hypochlorous acid B Kormányos, I Nagypál, G Peintler, AK Horváth Inorganic chemistry 47 (17), 7914-7920, 2008 | 34 | 2008 |
Kinetics and mechanism of the chlorine dioxide-tetrathionate reaction AK Horvath, I Nagypal, IR Epstein The Journal of Physical Chemistry A 107 (47), 10063-10068, 2003 | 32 | 2003 |
Stability of gamma-valerolactone under neutral, acidic, and basic conditions CYY Wong, AWT Choi, MY Lui, B Fridrich, AK Horváth, LT Mika, ... Structural Chemistry 28 (2), 423-429, 2017 | 31 | 2017 |
Kinetics and mechanism of the oxidation of sulfite by chlorine dioxide in a slightly acidic medium AK Horváth, I Nagypál The Journal of Physical Chemistry A 110 (14), 4753-4758, 2006 | 29 | 2006 |
Oscillatory photochemical decomposition of tetrathionate ion AK Horváth, I Nagypál, IR Epstein Journal of the American Chemical Society 124 (37), 10956-10957, 2002 | 29 | 2002 |
Recent developments in the chemistry of thiourea oxides SV Makarov, AK Horvath, R Silaghi‐Dumitrescu, Q Gao Chemistry–A European Journal 20 (44), 14164-14176, 2014 | 28 | 2014 |
Improved calibration and use of stopped-flow instruments G Peintler, A Nagy, AK Horváth, T Körtvélyesi, I Nagypál Physical Chemistry Chemical Physics 2 (11), 2575-2586, 2000 | 28 | 2000 |
Sodium dithionite, rongalite and thiourea oxides: chemistry and application S Radu World Scientific, 2016 | 25 | 2016 |
Kinetics and mechanism of the reaction between hypochlorous acid and tetrathionate ion AK Horváth, I Nagypál International Journal of Chemical Kinetics 32 (7), 395-402, 2000 | 25 | 2000 |
Kinetics of photoresponse of the chlorine dioxide-iodine-malonic acid reaction AK Horváth, M Dolnik, AM Zhabotinsky, IR Epstein The Journal of Physical Chemistry A 104 (24), 5766-5769, 2000 | 24 | 2000 |
Classification of clock reactions AK Horváth, I Nagypál ChemPhysChem 16 (3), 588-594, 2015 | 22 | 2015 |
Unexpected formation of higher polythionates in the oxidation of thiosulfate by hypochlorous acid in a slightly acidic medium D Varga, AK Horváth, I Nagypál The Journal of Physical Chemistry B 110 (6), 2467-2470, 2006 | 22 | 2006 |
Kinetics and Mechanism of the Chlorine Dioxide–Trithionate Reaction G Csekő, AK Horváth The Journal of Physical Chemistry A 116 (11), 2911-2919, 2012 | 21 | 2012 |