emlineáris dinamika és kinetika csoport

TUDOMÁNYOS KÖZLEMÉNYEK

2025

1. A. Paikar, X. Li, L. Avram, B. Smith, I. Sütő, D. Horváth, E. Rennert, Y. Qiu, Á. Tóth, S. Vaikuntanathan, S. N. Semenov
   Chemical waves in reaction-diffusion networks of small organic molecules
   Chem. Sci. 16, 659-669 (2025) PDF SI

   2024

2. R. M. Ádám, P. Papp, D. Horváth, Á. Tóth
   Diffusion-driven growth of calcium carbonate polymorphs in microchannels
   RSC Adv. 14, 39618-39624 (2024) PDF SI

3. P. E. Farkas, E. Lantos, D. Horváth, Á. Tóth
   Transport-Limited Growth of Flow-Driven Rare-Earth Silicate Tubes
   ChemSystemsChem 6, e202400053 (2024) PDF SI Accepted Version

4. K. Musza, G. Schuszter
   Rendhagyó laboratóriumi gyakorlatok az Irinyi János Országos Középiskolai Kémiaversenyen
   KÖKÉL LI(4), 348-363 (2024) PDF

5. P. Papp, Á. Tóth, D. Horváth
   PaReDiSo: A reaction-diffusion solver coupled with OpenMPI and CVODE
   Comput. Phys. Commun. 301, 109193 (2024) PDF

6. Y. Stergiou, D. M. Escala, P. Papp, D. Horváth, M. J. B. Hauser, F. Brau, A. De Wit, Á. Tóth, K. Eckert, K. Schwarzenberger
   Unraveling dispersion and buoyancy dynamics around radial A + B → C reaction fronts: microgravity experiments and numerical simulations
   npj Microgravity 10, 53 (2024) PDF

7. P. Papp, Á. Tóth, D. Horváth
   Population Mass Balance Model for Precipitation with Turbidity Measurements
   ACS Omega 9, 13412–13417 (2024) PDF

8. M. Olasz, G. Peintler, and G. Schuszter
   Determination of Reaction Stoichiometry by Applying Job’s Method and Digital Image Processing for Precipitation Reactions
   J. Chem. Educ. 101, 1280–1285 (2024) PDF

9. N. Német, G. Holló, N. Valletti, Sz. Farkas, Brigitta Dúzs, Á. Kukovecz, G. Schuszter, I. Szalai, F. Rossi and I. Lagzi
   Synthesis of zeolitic imidazolate framework-8 using an electric field in a gelled medium
   Mater. Adv. 5, 1199-1204 (2024) PDF

   2023

10. Sz. Farkas, F. Gazdag, M. Detrich, M. Mészáros, G. Holló, G. Schuszter, and I. Lagzi
    Formation of Precipitation Ellipsoidal Disks and Spheres in the Wake of a Planar Diffusion Front
    J. Phys. Chem. Lett. 14, 10382-10387 (2023) PDF

11. P. Papp, S. Bourg, M. Emmanuel, Á. Tóth, A. Abou-Hassan, D. Horváth
    Spatiotemporal Distribution of Calcium Oxalate Crystals in a Microchannel
    Cryst. Growth Des., 23, 8116-8123 (2023) » PDF

12. R. Zahorán, P. Kumar, D. Horváth, and Á. Tóth
    Self-propulsion of a calcium alginate surfer
    Soft Matter, 19, 8033-8039 (2023) PDF » SI

13. K. Bene, E. Balog, and G. Schuszter
    Synthesis and composition modification of precipitate tubes in a confined flow reactor
    Phys. Chem. Chem. Phys., 25, 27293-27301 (2023) PDF » SI

14. E. Lantos, Á. Tóth, and D. Horváth
    Oscillatory dynamics in a reaction network based on imine hydrolysis
    Chaos, 33, 103104 (2023) HTML

15. M. Itatani, N. Német, N. Valletti, G. Schuszter, P. Prete, P. Lo Nostro, R. Cucciniello, F. Rossi, and Lagzi, I.
    Synthesis of Zeolitic Imidazolate Framework‑8 Using Glycerol Carbonate
    ACS Sustainable Chem. Eng. 11, 13043-13049 (2023) PDF

16. Német, N., Lawson, H.S., Holló, G. Valletti, N., Rossi, F., Schuszter, G., and Lagzi, I.
    Non-autonomous zinc–methylimidazole oscillator and the formation of layered precipitation structures in a hydrogel
    Sci Rep 13, 11029 (2023) PDF

17. E. Lantos, G. Mótyán, É. Frank, R. Eelkema, J. van Esch, D. Horváth, and Á. Tóth
    Dynamics of hydroxide-ion-driven reversible autocatalytic networks
    RSC Advances, 13, 20243-20247 (2023) PDF » SI

18. Y. Stergiou, P. Papp, D. Horváth, Á. Tóth, K. Eckert, K. Schwarzenberger
    Experimental and numerical investigation of a density-driven instability during a horizontal miscible displacement
    Phys. Fluids, 35, 064112 (2023) HTML

19. P. Kumar, D. Horváth, and Á. Tóth
    Self-assembly to synchrony of active gels
    Soft Matter, 19, 4137-4143 (2023) PDF HTML with movies

20. R. Zahorán, P. Kumar, Á. Deák, E. Lantos, D. Horváth, and Á. Tóth
    From balloon to crystalline structure in the calcium phosphate flow-driven chemical garden
    Langmuir, 39, 5078-5083 (2023) PDF » SI

21. A. Vailati, H. Bataller, M. M. Bou-Ali, M. Carpineti, R. Cerbino, F. Croccolo, S. U. Egelhaaf, F. Giavazzi, C. Giraudet, G. Guevara-Carrion, D. Horváth, W. Köhler, A. Mialdun, J. Porter, K. Schwarzenberger, V. Shevtsova, and A. De Wit
    Diffusion in liquid mixtures
    npj Microgravity, 9, 1 (2023) PDF

    2022

22. R. Zahorán, P. Kumar, Á. Juhász, D. Horváth, and Á. Tóth
    Flow-driven synthesis of calcium phosphate–calcium alginate hybrid chemical gardens
    Soft Matter, 18, 8157-8164 (2022) PDF » SI

23. Y. Stergiou, M. J.B. Hauser, A. De Wit, G. Schuszter, D. Horváth, K. Eckert, and K. Schwarzenberger
    Chemical flowers: Buoyancy-driven instabilities under modulated gravity during a parabolic flight
    Phys. Rev. Fluids, 7, 110503 (2022) PDF

24. P. Papp, Á. Tóth, D. Horváth
    Spatial precipitate separation enhanced by complex formation
    Chem. Eng. Sci., 261, 117955 (2022) » PDF SI

25. E. Balog, G. Varga, Á. Kukovecz, Á. Tóth, D. Horváth, I. Lagzi, and G. Schuszter
    Polymorph Selection of Zeolitic Imidazolate Frameworks via Kinetic and Thermodynamic Control
    Cryst. Growth Des., 22, 4268-4276 (2022) PDF » SI

26. Sz. Farkas, M. S. Fonyi, G. Holló, N. Német, N. Valletti, Á. Kukovecz, G. Schuszter, F. Rossi, and I. Lagzi
    Periodic Precipitation of Zeolitic Imidazolate Frameworks in a Gelled Medium
    J. Phys. Chem. C, 126, 9580-9586 (2022) » SI

27. Y. Stergiou, M. J.B. Hauser, A. Comolli, F. Brau, A. De Wit, G. Schuszter, P. Papp, D. Horváth, C. Roux, V. Pimienta, K. Eckert, K. Schwarzenberger
    Effect of gravity modulation on the dynamics of a radial A+B->C reaction front
    Chem. Eng. Sci., 257, 117703 (2022) » SI

28. M. Emmanuel, P. Papp, G. Schuszter, Á. Deák, L. Janovák, Á. Tóth, D. Horváth
    Nucleation kinetics of lithium phosphate precipitation
    CrystEngComm, 24, 4447-4453 (2022) PDF SI

29. P. Kumar, Q. Wang, D. Horváth, Á. Tóth, O. Steinbock
    Collective motion of self-propelled chemical garden tubes
    Soft Matter, 18, 4389-4395 (2022) PDF SI

    Movie1 Movie2 Youtube with sound

30. P. Kumar, D. Horváth, Á. Tóth
    Sol-gel transition programmed self-propulsion of chitosan hydrogel
    Chaos, 32, 063120 (2022) » PDF SI

    Movie1 Movie2 Movie3 Movie4

31. N. Német, G. Holló, G. Schuszter, D. Horváth, Á. Tóth, F. Rossi, I. Lagzi
    Application of a chemical clock in material design: chemically programmed synthesis of zeolitic imidazole framework-8
    Chem. Commun. 58, 5777-5780 (2022) PDF SI

32. C. Hajdu, P. Kumar, D. Horváth, Á. Tóth
    Pattern selection of directionally oriented chitosan tubes
    J. Chem. Phys., 156, 134902 (2022) » PDF » SI

33. M. Emmanuel, E. Lantos, D. Horváth, Á. Tóth
    Formation and growth of lithium phosphate chemical gardens
    Soft Matter 18, 1731-1736 (2022) PDF

34. N. Német, Y. Miele, G. Schuszter, E. L. Tóth, J. E. Maróti, P. J. Szabó, F. Rossi, I. Lagzi
    Inhibition of the urea-urease reaction by the components of the zeolite imidazole frameworks-8 and the formation of urease-zinc-imidazole hybrid compound
    React. Kinet. Mech. Catal. 135, 15-28 (2022) » PDF » SI

35. B. Dúzs, G. Holló, G. Schuszter, D. Horváth, Á. Tóth, I. Szalai, I. Lagzi
    Synthesis of zeolitic imidazolate framework-8 and gold nanoparticles in a sustained out-of-equilibrium state
    Sci. Rep. 12, 222 (2022) » PDF » SI

36. A. Szerlauth, E. Balog, D. Takács, Sz. Sáringer, G. Varga, G. Schuszter, I. Szilágyi
    Self-assembly of delaminated layered double hydroxide nanosheets for the recovery of lamellar structure
    Colloids Interface Sci. Commun., 46, 100564 (2022) » PDF » SI

2021

37. Sz. Farkas, G. Holló, G. Schuszter, Á. Deák, L. Janovák, V. Hornok, M. Itatani, H. Nabika, D. Horváth, Á. Tóth, I. Lagzi
    Reaction–Diffusion Assisted Synthesis of Gold Nanoparticles: Route from the Spherical Nano-Sized Particles to Micrometer-Sized Plates
    J. Phys. Chem. C, 125, 26116-26124 (2021) » PDF » SI

38. S. Maćešić, Á. Tóth, D. Horváth
    Origins of oscillatory dynamics in the model of reactive oxygen species in the rhizosphere
    J. Chem. Phys., 155, 175102 (2021) PDF

39. P. Kumar, D. Sebők, Á. Kukovecz, D. Horváth, Á. Tóth
    Hierarchical Self-Assembly of Metal-Ion-Modulated Chitosan Tubules
    Langmuir, 37, 12690–12696 (2021) » PDF » SI

    Movie1 Movie2

40. K. V. Bere, E. Nez, E. Balog, L. Janovák, D. Sebők, Á. Kukovecz, C. Roux, V. Pimienta, G. Schuszter
    Enhancing the yield of calcium carbonate precipitation by obstacles in laminar flow in a confined geometry
    Phys. Chem. Chem. Phys., 23, 15515-15521 (2021) » PDF » SI (HOT Article)

41. P. Kumar, C. Hajdu, Á. Tóth, D. Horváth
    Flow-driven surface instabilities of tubular chitosan hydrogel
    ChemPhysChem, 22, 488- 492 (2021) » PDF » SI

    Movie1 Movie2

2020

42. K. Rakotozandriny, S. Bourg, P. Papp, Á. Tóth, D. Horváth, I. T. Lucas, F. Babonneau, C. Bonhomme, A. Abou-Hassan
    Investigating CaOx Crystal Formation in the Absence and Presence of Polyphenols under Microfluidic Conditions in Relation with Nephrolithiasis
    Cryst. Growth Des., 20, 7683-7693 (2020) » PDF » SI

43. N. P. Das, R. Zahorán, L. Janovák, Á. Deák, Á. Tóth, D. Horváth, G. Schuszter
    Kinetic Characterization of Precipitation Reactions: Possible Link between a Phenomenological Equation and Reaction Pathway
    Cryst. Growth Des., 20, 7392-7398 (2020) » PDF » SI

44. P. Kumar, D. Horváth, Á. Tóth
    Bio-inspired flow-driven chitosan chemical gardens
    Soft Matter, 16, 8325-8329 (2020) » PDF » SI

    Movie1 Movie2 Movie3 Movie4 Movie5

45. S.S.S. Cardoso, J. H. E. Cartwright, J. Cejková, L. Cronin, A. De Wit, S. Giannerini, D. Horváth, A. Rodrigues, M. J. Russell, C. I. Sainz-Díaz, Á. Tóth
    Chemobrionics: From self-assembled material architectures to the origin of life
    Artificial Life, 26, 315-326 (2020) » PDF

46. M. Emmanuel, D. Horváth, Á. Tóth
    Flow-driven crystal growth of lithium phosphate in microchannels
    CrystEngComm, 22, 4887-4893 (2020) » PDF » SI

47. E. Balog, P. Papp, Á. Tóth, D. Horváth, G. Schuszter
    The impact of reaction rate on the formation of flow-driven confined precipitate patterns
    Phys. Chem. Chem. Phys., 22, 13390-13397 (2020) » PDF (Back cover)

48. Á. Tóth, G. Schuszter, N. P. Das, E. Lantos, D. Horváth, A. De Wit, F. Brau
    Effects of radial injection and solution thickness on the dynamics of confined A + B → C chemical fronts
    Phys. Chem. Chem. Phys., 22, 10278-10285 (2020) »

49. P. Papp, B. Bohner, Á. Tóth, D. Horváth
    Fine tuning of pattern selection in the cadmium–hydroxide-system
    J. Chem. Phys., 152, 094906 (2020) » » Accepted Manuscript

50. B Bohner, T. Bánsági, Á. Tóth, D. Horváth, and A. Taylor
    Periodic nucleation of calcium phosphate in a stirred bio-catalytic reaction
    Angew. Chem. Int. Ed., 59, 2823-2828 (2020) » PDF » SI

2019

51. N. P. Das, D. G. Dobó, D. Berkesi, Á. Kukovecz, D. Horváth, and Á. Tóth
    Directional coupling in spatially distributed nanoreactors
    RSC Adv., 9, 40745-40749 (2019) » PDF

52. D. Takács, G. Schuszter, D. Sebők, Á. Kukovecz, D. Horváth, and Á. Tóth
    Magnetic-Field-Manipulated Growth of Flow-Driven Precipitate Membrane Tubes
    Chem. Eur. J., 25, 14826-14833 (2019) » PDF » Cover Feature

53. G. Pótári, Á. Tóth, and D. Horváth
    Precipitation patterns driven by gravity current
    Chaos, 29, 073117 (2019) » » Accepted Manuscript

54. R. Zahorán, Á. Kukovecz, Á. Tóth, D. Horváth, and G. Schuszter,
    High-speed tracking of fast chemical precipitations
    Phys. Chem. Chem. Phys., 21, 11345-11350 (2019) » PDF » SI » SI movie

55. E. Balog, K. Bittmann, K. Schwarzenberger, K. Eckert, A. DeWit, and G. Schuszter,
    Influence of microscopic precipitate structures on macroscopic pattern formation in reactive flows in a confined geometry
    Phys. Chem. Chem. Phys., 21, 2910-2918 (2019) » PDF (HOT Article)

56. P. Bába, Á. Tóth, and D. Horváth,
    Surface-tension-driven dynamic contact line in microgravity
    Langmuir, 35, 406-412 (2019) » » SI

2018

57. P. Bába, L. Rongy, A. De Wit, M.J.B. Hauser, Á. Tóth, and D. Horváth,
    Interaction of pure Marangoni convection with a propagating reactive interface under microgravity
    Phys. Rev. Lett., 121, 024501 (2018) » PDF

58. N.P. Das, B. Müller, Á. Tóth, D. Horváth, and G. Schuszter,
    Macroscale Precipitation Kinetics: Towards Complex Precipitate Structure Design
    Phys. Chem. Chem. Phys., 20, 19768-19775 (2018) » PDF (Back cover)

59. É. Pópity-Tóth, G. Schuszter, D. Horváth, and Á. Tóth,
    Peristalticity-driven banded chemical garden
    J. Chem. Phys., 148, 184701 (2018) » » Accepted Manuscript (Editor's pick and cover)

60. L. Gyevi-Nagy, E. Lantos, T. Gehér-Herczegh, Á. Tóth, Cs. Bagyinka, and D. Horváth,
    Reaction fronts of the autocatalytic hydrogenase reaction
    J. Chem. Phys., 148, 165103 (2018) »

61. E. Lantos, N.P. Das, D. Berkesi, D.G. Dobó, Á. Kukovecz, D. Horváth, and Á. Tóth,
    Interaction between amino-functionalized inorganic nanoshells and acid-autocatalytic reactions
    Phys. Chem. Chem. Phys., 20, 13365-13369 (2018) » PDF » SI

62. E. Rauscher, G. Schuszter, B. Bohner, Á. Tóth, and D. Horváth,
    Osmotic contribution to the flow-driven tube formation of copper–phosphate and copper–silicate chemical gardens
    Phys. Chem. Chem. Phys., 20, 5766-5770 (2018) » PDF

2017

63. G. Schuszter, T. Gehér-Herczegh, Á. Szűcs, Á. Tóth, and D. Horváth,
    Determination of the diffusion coefficient of hydrogen ion in hydrogels
    Phys. Chem. Chem. Phys., 19, 12136-12143 (2017) » PDF

64. F. Brau, G. Schuszter, and A. De Wit,
    Flow Control of A + B → C Fronts by Radial Injection
    Phys. Rev. Lett. 118, 134101 (2017) » APS PDF

65. E. Tóth-Szeles, B. Bohner, Á. Tóth, and D. Horváth,
    Spatial Separation of Copper and Cobalt Oxalate by Flow-Driven Precipitation
    Cryst. Growth Des., 17, 5000-5005 (2017) »

2016

66. G. Schuszter and A. De Wit,
    Comparison of flow-controlled calcium and barium carbonate precipitation patterns
    J. Chem. Phys., 145, 224201 (2016) »

67. G. Schuszter, F. Brau, and A. De Wit,
    Flow-driven control of calcium carbonate precipitation patterns in a confined geometry
    Phys. Chem. Chem. Phys., 18, 25592 (2016) » SI

68. Bába P., Horváth D., és Tóth Á.,
    Autokatalitikus frontreakciók konvektív instabilitásának numerikus vizsgálata
    Alkalmazott Matematikai Lapok 33:(2) pp. 129-138. (2016)» PDF

69. B. Bohner, B. Endrődi, D. Horváth, and Á. Tóth,
    Flow-driven pattern formation in the calcium-oxalate system
    J. Chem. Phys., 144, 164504 (2016) »

70. G. Schuszter, F. Brau, and A. De Wit,
    Calcium Carbonate Mineralization in a Confined Geometry
    Environmental Sci. and Techn. Lett., 3, 156-159 (2016) »

71. E. Tóth-Szeles, G. Schuszter, Á. Tóth, Z. Kónya, and D. Horváth,
    Flow-Driven Morphology Control in the Cobalt-Oxalate System
    CrystEngComm, 18, 2057-2064 (2016) » PDF SI

2015

72. B. Bohner, G. Schuszter, H. Nakanashi, D. Zámbó, A. Deák, D. Horváth, Á. Tóth, and I. Lagzi,
    Self-assembly of charged nanoparticles by an autocatalytic reaction front
    Langmuir, 31, 12019-12024, (2015) »

73. G. Schuszter, G. Pótári, D. Horváth, and Á. Tóth,
    Three-dimensional convection-driven fronts of exothermic chlorite-tetrathionate reaction
    Chaos, 25, 064501 (2015) »

74. B. Bohner, G. Schuszter, D. Horváth, and Á. Tóth,
    Morphology control by flow-driven self-organizing precipitation
    Chem. Phys. Lett., 631-632, 114-117 (2015) »

75. P. Pusztai, E. Tóth-Szeles, D. Horváth, Á. Tóth, Á. Kukovecz, and Z. Kónya,
    A simple method to control the formation mechanisms of cerium phosphate architectures
    Crystengcomm, 17, 8477-8485. (2015) »

76. Á. Tóth and D. Horváth,
    Diffusion-driven instabilities by immobilizing the autocatalyst in ionic systems
    Chaos, 25, 064304 (2015) »

77. G. Schuszter, E. Bogya, D. Horváth, Á. Tóth, H. Haspel, and Á. Kukovecz,
    Liquid droplet evaporation from buckypaper: On the fundamental properties of the evaporation profile
    Microporous and Mesoporous Materials, 209, 105-112 (2015) »

2014

78. E. Tóth-Szeles, Á. Tóth, and D. Horváth,
    Diffusive fingering in a precipitation reaction driven by autocatalysis
    Chem. Commun., 50, 5580-5582 (2014) » PDF
    SI model SI exp.avi SI calc.avi

79. Pópity-Tóth É., Schuszter G., Horváth D., és Tóth Á.,
    Háromdimenziós konvektív instabilitás tanulmányozása a klorit-tetrationát autokatalitikus reakcióban
    Magyar Kémiai Folyóirat - Kémiai Közlemények, 120, 55-59 (2014) » PDF

80. É. Pópity-Tóth, G. Pótári, I. Erdős, D. Horváth, and Á. Tóth,
    Marangoni instability in the iodate-arsenous acid reaction front
    J. Chem. Phys., 141, 044719 (2014) »

81. D. Horváth, M.A. Budroni, P. Bába, L. Rongy, A. De Wit, K. Eckert, M.J.B. Hauser, and Á. Tóth,
    Convective dynamics of traveling autocatalytic fronts in a modulated gravity field
    Phys. Chem. Chem. Phys., 16, 26279-26287 (2014) » PDF

82. B. Bohner, G. Schuszter, O. Berkesi, D. Horváth, and Á. Tóth,
    Self-organization of calcium oxalate by flow-driven precipitation
    Chem. Commun., 50, 4289-4291 (2014) » PDF Movie_1 Movie_2

2013

83. T. Rica, G. Schuszter, D. Horváth, and Á. Tóth,
    Tuning density fingering by changing stoichiometry in the chlorite-tetrathionate reaction
    Chem. Phys. Lett., 585, 80-83 (2013) »

84. É. Pópity-Tóth, V. Pimienta, D. Horváth, and Á. Tóth,
    Hydrodynamic instability in the open system of the iodate-arsenous acid reaction
    J. Chem. Phys., 139, 164707 (2013) »

2012

85. T. Gérard, T. Tóth, P. Grosfils, D. Horváth, A. De Wit, and Á. Tóth,
    Hot spots in density fingering of exothermic autocatalytic chemical fronts
    Phys. Rev. E, 86, 016322 (2012) »

86. É. Pópity-Tóth, D. Horváth, and Á. Tóth,
    Horizontally propagating three-dimensional chemo-hydrodynamic patterns in the chlorite-tetrathionate reaction
    Chaos, 22, 037105 (2012) »

87. G. Schuszter, D. Horváth, and Á. Tóth,
    Convective instabilities of chemical fronts in close-packed porous media
    Chem. Phys. Lett., 546, 63-66 (2012) »

88. Á. Tóth, D. Horváth, Á. Kukovecz, M. Maselko, A. Baker, S. Ali, and J. Maselko
    Pathway control in the self-construction of complex precipitation forms in a Cu(II)-oxalate system
    J. Syst. Chem., 3, 4 (2012) » PDF

2011

89. O. Miholics, T. Rica, D. Horváth, and Á. Tóth,
    Oscillatory and stationary convective patterns in a reaction driven gravity current
    J. Chem. Phys., 135, 204501 (2011) »

90. É. Pópity-Tóth, D. Horváth, and Á. Tóth,
    The dependence of scaling law on stoichiometry for horizontally propagating vertical chemical fronts
    J. Chem. Phys., 135, 074506 (2011) »

2010

91. T. Rica, É. Pópity-Tóth, D. Horváth, and Á. Tóth,
    Double-diffusive cellular fingering in the horizontally propagating fronts of the chlorite-tetrathionate reaction
    Physica D, 239, 831-837 (2010) DOI: 10.1016/j.physd.2009.07.010 »

2009

92. G. Schuszter, T. Tóth, D. Horváth, and Á. Tóth,
    Convective instabilities in horizontally propagating vertical chemical fronts
    Phys. Rev. E, 79, 016216 (2009) »

93. L. Rongy, G. Schuszter, Z. Sinkó, T. Tóth, D. Horváth, Á. Tóth, and A. De Wit,
    Influence of thermal effects on buoyancy-driven convection around autocatalytic chemical fronts propagating horizontally
    Chaos, 19, 023110 (2009) »

94. A. Baker, Á. Tóth, D. Horváth, J. Walkush, A.S. Ali, W. Morgan, Á. Kukovecz, J.J. Pantaleone, and J. Maselko,
    Precipitation pattern formation in the copper(ii) oxalate system with gravity flow and axial symmetry
    J. Phys. Chem. A, 113, 8243-8248 (2009) »

95. G. Bodó, R.M.M. Branca, Á. Tóth, D. Horváth, and Cs. Bagyinka,
    Concentration-dependent front velocity of the autocatalytic hydrogenase reaction
    Biophys. J., 96, 4976-4983 (2009) »

96. J. Pantaleone, Á. Tóth, D. Horváth, L. RoseFigura, W. Morgan, and J. Maselko,
    Pressure oscillations in a chemical garden
    Phys. Rev. E, 79, 056221 (2009) »

97. T. Tóth, D. Horváth, and Á. Tóth,
    Density fingering in spatially bimodulated Hele-Shaw cells
    Chem. Phys. Lett., 477, 315-318 (2009) »

2008

98. J. Pantaleone, Á. Tóth, D. Horváth, J.R. McMahan, R. Smith, D. Butki, J. Braden, E. Mathews, H. Geri, and J. Maselko,
    Oscillations of a chemical garden
    Phys. Rev. E, 77, 046207 (2008) »

99. T. Rica, D. Horváth, and Á. Tóth,
    Viscosity-Change-Induced Density Fingering in Polyelectrolytes
    J. Phys. Chem. B, 112, 14593-14596 (2008) »

100. T. Tóth, D. Horváth, and Á. Tóth,
     Scaling law of stable single cells in density fingering of chemical fronts
     J. Chem. Phys., 128, 144509 (2008) »

101. T. Tóth, D. Horváth, and Á. Tóth,
     Scaling law of stable single cells in density fingering of chemical fronts (vol 128, art no 144509, 2008)
     J. Chem. Phys., 129, 019901 (2008) »

102. V.V. Udovichenko, P.E. Strizhak, Á. Tóth, D. Horwáth, S. Ning, and J. Maselko,
     Temporal and spatial organization of chemical and hydrodynamic processes. The system Pb2+-Chlorite-Thiourea
     J. Phys. Chem. A, 112, 4584-4592 (2008) »

103. Zs. Virányi, Á. Tóth, and D. Horváth,
     Diffusion-driven pattern formation in ionic chemical solutions
     Phys. Rev. Lett., 100, 088301 (2008) »

2007

104. Á. Tóth, D. Horváth, R. Smith, J.R. McMahan, and J. Maselko,
     Phase diagram of precipitation morphologies in the Cu2+-PO43- system
     J. Phys. Chem. C, 111, 14762-14767 (2007) »

105. T. Tóth, D. Horváth, and Á. Tóth,
     Density fingering in spatially modulated Hele-Shaw cells
     J. Chem. Phys., 127, 234506 (2007) »

106. T. Tóth, D. Horváth, and Á. Tóth,
     Thermal effects in the density fingering of the chlorite-tetrathionate reaction
     Chem. Phys. Lett., 442, 289-292 (2007) »

107. Zs. Virányi, Á. Tóth, and D. Horváth,
     Modeling study of migration-driven lateral instability in autocatalytic systems
     J. Eng. Math., 59, 229-238 (2007) »

2006

108. D. Horváth, S. Tóth, and Á. Tóth,
     Periodic heterogeneity-driven resonance amplification in density fingering
     Phys. Rev. Lett., 97, 194501 (2006) »

109. Á. Tóth, P. Kevei, and D. Horváth,
     Lateral instability of stationary spherical reaction balls
     Phys. Rev. E, 74, 036214 (2006) »

110. Zs. Virányi, D. Horváth, and Á. Tóth,
     Migration-driven instability in the chlorite - Tetrathionate reaction
     J. Phys. Chem. A, 110, 3614-3618 (2006) »

2005

111. T. Rica, D. Horváth, and Á. Tóth,
     Density fingering in acidity fronts: Effect of viscosity
     Chem. Phys. Lett., 408, 422-425 (2005) »

112. Zs. Virányi, Á. Tóth, and D. Horváth,
     Lateral instability induced by an inhomogeneous electric field
     Chem. Phys. Lett., 401, 575-578 (2005) »

2004

113. T. Bánsági, D. Horváth, and Á. Tóth,
     Multicomponent convection in the chlorite-tetrathionate reaction
     Chem. Phys. Lett., 384, 153-156 (2004) »

114. T. Bánsági, D. Horváth, and Á. Tóth,
     Nonlinear interactions in the density fingering of an acidity front
     J. Chem. Phys., 121, 11912-11915 (2004) »

115. Zs. Virányi, A. Szommer, Á. Tóth, and D. Horváth,
     Lateral instability controlled by constant electric field in an acid-catalyzed reaction
     Phys. Chem. Chem. Phys., 6, 3396-3401 (2004) »

2003

116. T. Bánsági, D. Horváth, and Á. Tóth,
     Convective instability of an acidity front in Hele-Shaw cells
     Phys. Rev. E, 68, 026303 (2003) »

117. T. Bánsági, D. Horváth, Á. Tóth, J. Yang, S. Kalliadasis, and A. De Wit,
     Density fingering of an exothermic autocatalytic reaction
     Phys. Rev. E, 68, 055301 (2003) »

118. É. Jakab, D. Horváth, J.H. Merkin, S.K. Scott, P.L. Simon, and Á. Tóth,
     Isothermal flame balls: Effect of autocatalyst decay
     Phys. Rev. E, 68, 036210 (2003) »

2002

119. D. Horváth, T. Bánsági, and Á. Tóth,
     Orientation-dependent density fingering in an acidity front
     J. Chem. Phys., 117, 4399-4402 (2002) »

120. É. Jakab, D. Horváth, J.H. Merkin, S.K. Scott, P.L. Simon, and Á. Tóth,
     Isothermal flame balls
     Phys. Rev. E, 66, 016207 (2002) »

121. É. Jakab, D. Horváth, and Á. Tóth,
     Temperature-controlled cellular fronts
     Phys. Chem. Chem. Phys., 4, 1307-1309 (2002) »

2001

122. É. Jakab, D. Horváth, Á. Tóth, J.H. Merkin, and S.K. Scott,
     The effect of reversible binding of the autocatalyst on the lateral instability of reaction fronts
     Chem. Phys. Lett., 342, 317-322 (2001) »

123. T. Nakagaki, H. Yamada, and Á. Tóth,
     Path finding by tube morphogenesis in an amoeboid organism
     Biophys. Chem., 92, 47-52 (2001) »

124. Á. Tóth, D. Horváth, É. Jakab, J.H. Merkin, and S.K. Scott,
     Lateral instabilities in cubic autocatalytic reaction fronts: The effect of autocatalyst decay
     J. Chem. Phys., 114, 9947-9952 (2001) »

125. Á. Tóth, D. Horváth, and K. Yoshikawa,
     Unidirectional wave propagation in one spatial dimension
     Chem. Phys. Lett., 345, 471-474 (2001) »

2000

126. K. Agladze, Á. Tóth, T. Ichino, and K. Yoshikawa,
     Propagation of chemical waves at the boundary of excitable and inhibitory fields
     J. Phys. Chem. A, 104, 6677-6680 (2000) »

127. T. Nakagaki, H. Yamada, and Á. Tóth,
     Maze-solving by an amoeboid organism
     Nature, 407, 470 (2000) »

1999

128. D. Horváth, Á. Tóth, and K. Yoshikawa,
     Electric field induced lateral instability in a simple autocatalytic front
     J. Chem. Phys., 111, 10-13 (1999) »

129. Á. Tóth and D. Horváth,
     Cellular acidity fronts
     Abstracts of Papers of the American Chemical Society 218:(2) p. U288. 1 p. (1999)

130. Á. Tóth, D. Horváth, and W. van Saarloos,
     Lateral instabilities of cubic autocatalytic reaction fronts in a constant electric field
     J. Chem. Phys., 111, 10964-10968 (1999) »

1998

131. D. Horváth and Á. Tóth,
     Diffusion-driven front instabilities in the chlorite-tetrathionate reaction
     J. Chem. Phys., 108, 1447-1451 (1998) »

132. D. Horváth, M. Kiricsi, and Á. Tóth,
     Lateral front instability in an open reaction-diffusion system
     J. Chem. Soc., Faraday Trans., 94, 1217-1219 (1998) »

133. Á. Tóth, B. Veisz, and D. Horváth,
     Diffusion-driven front instability in a three-dimensional medium
     J. Phys. Chem. A, 102, 5157-5159 (1998) »

1997

134. D. Horváth and Á. Tóth,
     Turing patterns in a single-step autocatalytic reaction
     J. Chem. Soc., Faraday Trans,, 93, 4301-4303 (1997) »

135. Á. Tóth, D. Horváth, and A. Siska,
     Velocity of propagation in reaction-diffusion fronts of the chlorite-tetrathionate reaction
     J. Chem. Soc., Faraday Trans., 93, 73-76 (1997) »

1996

136. G. Sipos-Nagy, D. Horváth, and A. Dombi,
     Car phase reactions in silent electric discharges .3. Investigation of chemical reactions involving electron-molecule collisions in various mixtures of O-2 with Ar, N-2 or CO
     Ozone Science & Engineering, 18, 159-171 (1996) »

137. Á. Tóth, I. Lagzi, and D. Horváth,
     Pattern formation in reaction-diffusion systems: Cellular acidity fronts
     J. Phys. Chem. US, 100, 14837-14839 (1996) »

1995

138. D. Horváth and K. Showalter,
     Instabilities in Propagating Reaction.diffusion Fronts of the Iodate Arsenious Acid Reaction
     J. Chem. Phys., 102, 2471-2478 (1995) » PDF

139. O. Steinbock, Á. Tóth, and K. Showalter,
     Navigating Complex Labyrinths - Optimal Paths from Chemical Waves
     Science, 267, 868-871 (1995) » PDF

140. Á. Tóth and K. Showalter,
     Logic Gates in Excitable media
     J. Chem. Phys., 103, 2058-2066 (1995) » PDF

1994

141. Á. Tóth, V. Gáspár, and K. Showalter,
     Signal Transmission in Chemical-systems - Propagation of Chemical Waves Through Capillary Tubes
     J. Phys. Chem. US, 98, 522-531 (1994) » PDF

1993

142. D. Horváth, V. Petrov, S.K. Scott, and K. Showalter,
     Intabilities in Propagating Reaction-diffusion Fronts
     J. Chem. Phys., 98, 6332-6343 (1993) » PDF