Institute of physical chemistry of the polish academy of sciences

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Head of the Department: prof. dr hab. Robert Hołyst

Phone: +48 22 343 34 07


  1. Abraham D. B., Maciołek A.
    Surface critical behavior in sing magnets: exact results.
    Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys., 73, 066129-1-5 (2006).

  2. Ciach A.
    Universality class of the critical point in the restricted primitive model of ionic systems.
    Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys., 73, 066110-066119 (2006).

  3. Ciach A., Góźdź W. T., Stell G.
    Macroscopic theory for size-and charge-asymmetric ionic systems: I. The case of extreme asymmetry.
    J. Phys.: Condens. Matter., 18, 1629-1648 (2006).

  4. Ciach A., Patsahan O.
    Field-theoretic description of ionic crystallization in the restricted primitive model.
    Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys., 74, 021508-1-3 (2006).

  5. Demyanchuk I., Wieczorek S A., Hołyst R.
    Phase separation in binary polymer/liquid crystal mixtures: network breaking and domain growth by coalescence-induced coalescence.
    J. Phys. Chem. B, 110, 9869-9875 (2006).

  6. Drzewiński A., Maciołek A., Szota K.
    On the surface critical behavior in sing strips: density- -matrix renormalization-group study.
    J. Phys.: Condens. Matter., 18, 5069-5078 (2006).

  7. Furmaniak S., Terzyk A. P., Szymański G. S., Gauden P. A., Motak M., Kowalczyk P., Rychlicki G.
    Thermodynamics of the CMMS approach and carbon surface chemistry in SO2 adsorption.
    Langmuir, 22, 6887-6892 (2006).

  8. Ganan – Calvo A. M., Herrada M. A., Garstecki P.
    Bubbling in unbounded coflowing liquids.
    Phys. Rev. Lett., 96, 124504-1-4 (2006).

  9. Garstecki P.
    Microfluidic crystals impossible order.
    Nat. Phys., 2, 733-734 (2006).

  10. Garstecki P., Fuerstman M. J., Fischbach M. A., Sia S. K., Whitesides G. M.
    Mixing with bubbles: a practical technology for use with portable microfluidic devices.
    Lab Chip, 6, 207-212 (2006).

  11. Garstecki P., Fuerstman M. J., Stone H. A., Whitesides G. M.
    Formation of droplets and bubbles in a microfluidic T-junction-scaling and mechanism of break-up.
    Lab Chip, 6, 437-446 (2006).

  12. Garstecki P., Whitesides G. M.
    Tessellation of a stripe.
    Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys., 73, 031603-031610 (2006).

  13. Garstecki P., Whitesides G. M.
    Flowing crystals: Nonequilibrium structure of foam.
    Phys. Rev. Lett., 97, 024503-1-4 (2006).

  14. Gauden P. A., Terzyk A. P., Ćwiertnia M. S., Rychlicki G., Newcombe G., Kowalczyk P.
    Benzene adsorption on carbonaceous materials: the influence of pore structure on the state of the adsorbate.
    Appl. Surf. Sci., 253, 2525-2539 (2006).

  15. Gauden P. A., Terzyk A. P., Rychlicki G., Kowalczyk P., Lota K., Raymundo-Pinero E., Frackowiak E., Beguin F.
    Thermodynamic properties of benzene adsorbed in activated carbons and multi-walled carbon nanotubes.
    Chem. Phys. Lett., 421, 409-414 (2006).

  16. Góźdź W. T.
    The interface width of separated two-component lipid membranes.
    J. Phys. Chem. B, 110, 21981-21986 (2006).

  17. Hashimoto M., Mayers B., Garstecki P., Whitesides G. M.
    Flowing lattices of bubbles as tunable, self-assembled diffraction gratings.
    Small, 2, 1292-1298 (2006).

  18. Jousse F., Farr R., Link D. R., Fuerstman M. J., Garstecki P.
    Bifurcation of droplet flows within capillaries.
    Phys. Rev. E: Stat., Nonlinear, Soft Matter Phys., 74, 036311-1-6 (2006).

  19. Kowalczyk P., Bhatia S. K.
    Optimization of slitlike carbon nanopores for storage of hythane fuel at ambient temperatures.
    J. Phys. Chem. B, 110, 23770-23776 (2006).

  20. Kowalczyk P., Hołyst R., Terzyk A. P., Gauden A. P.
    State of hydrogen in idealized Carbon slitlike nanopores at 77 K.
    Langmuir, 22, 1970-1972 (2006).

  21. Kowalczyk P., MacElroy J. D. M.
    Equilibrium properties of dense hydrogen isotope gases based on the Theory of Simple Fluids.
    J. Phys. Chem. B, 110, 14971-14975 (2006).

  22. Kowalczyk P., Solarz L., Do D. D., Samborski A., MacElroy J. M. D.
    Nanoscale tubular vessels for storage of methane at ambient temperatures.
    Langmuir, 22, 9035-9040 (2006).

  23. Kowalczyk P., Sprynskyy M., Terzyk A. P., Lebedynets M., Namieśnik J., Buszewski B.
    Porous structure of natural and modified clinoptilolites.
    J. Colloid Interface Sci., 297, 77-85 (2006).

  24. Maciołek A., Dietrich S.
    Critical Casimir effect in 3He-4He films.
    Europhys. Lett., 74, 22-28 (2006).

  25. Stecki J.
    Size dependence, stability, and the transition to buckling in model reverse bilayers.
    J. Chem. Phys., 125, 154902-1-9 (2006).

  26. Stecki J.
    Exended capillary waves and the negative rigidity coefficient in a two-dimensional solid-on-solid model.
    Phys. Rev. B: Condens. Matter Mater. Phys., 74, 033409-1-4 (2006).

  27. Szymański J., Patkowski A., Gapiński J., Wilk A., Hołyst R.
    Movement of proteins in an environment crowded by surfactant micelles: anomalous versus normal diffusion.
    J. Phys. Chem. B., 110, 7367-7373 (2006).

  28. Szymański J., Patkowski A., Wilk A., Garstecki P., Hołyst R.
    Diffusion and viscosity in a crowded environment: from nano- to mcro scale.
    Phys. Rev. B: Condens. Matter Mater. Phys., 110, 25593-25597 (2006).

  29. Terzyk A. P., Rychlicki G., Ćwiertnia M. S., Gauden P. A., Kowalczyk P.
    Effect of the carbon surface layer chemistry on benzene adsorption from the vapor phase and from dilute aqueous solutions.
    Langmuir, 21, 12257-12267 (2005).


  1. Ciach A.
    Mesoscopic theory for highly charged colloids.
    ESF EW, Compiegne, France, 2006 (invited lecture).

  2. Ciach A.
    Eff. of confinement on self -assembling systems.
    16th International Thermophysics Conference, Boulder, USA, 2006.

  3. Ciach A., Góźdź W. T., Stell G.
    Mesoscopic theory for highly charged colloids in pure water.
    16th International Thermophysics Conference, Boulder, USA, 2006 (invited lecture).

  4. Garstecki P.
    Rate-of-flow-controlled break-up; formation of bubbles and droplets in microfluidic systems.
    European Fluid Mechanics Conference 6, Stockholm, Sweden, 2006.

  5. Garstecki P., Cybulski O.
    Spontaneous oscillations of a two-phase flow in a microfluidic network.
    19th Marian Smoluchowski Symposium on Statistical Physics, Cracow, Poland, 2006.

  6. Góźdź W. T.
    Derformations of lipid membranes.
    XX Sitges Conference on Statistical Mechanics, Sitges, Spain, 2006.

  7. Hołyst R., Babin V.
    Evaporation in microscale.
    19th Marian Smoluchowski Symposium on Statistical Physics, Cracow, Poland, 2006 (invited lecture).

  8. Hołyst R., Babin V.
    Evaporation condenstation in a nano and microscale.
    US-Poland Workshop on Nanoscience and Nanostructured Materiale, Poznan, Poland, 2006 (invited lecture).

  9. Maciołek A.
    Critical Casimir forces in superfluid films.
    Symposium: Soft Matter and Interfaces, Lisbon, Portugal, 2006.

  10. Maciołek A.
    Finite-size effects and universality in super fluid films.
    ESF-FWF Conference: Solid/Fluid Interfaces-Complex Fluid Interfaces and Nanofluidics, Obergurgl, Austria, 2006.

  11. Szymański J., Patkowski A., Wilk A., Garstecki P., Hołyst R.
    Nanorheology of surfactant micellar solutions from protein diffusion.
    19th Marian Smoluchowski Symposium on Statistical Physics, Cracow, Poland, 2006.

  12. Tabaka M., Hołyst R.
    Stochasticity in gene expression.
    19th Marian Smoluchowski Symposium on Statistical Physics, Cracow, Poland, 2006.

  13. Wieczorek S. A., Freyssingeas E., Hołyst R.
    Relaxation processes in semidilute and dilute solutions of polymers in liquid crystal solvent.
    Thermo International 2006, Boulder, USA, 2006.


  1. Ciach A.
    Highly charged colloids in deionized water.
    Institute for Condensed Matter Physics UNAS, Lviv, Ukraine, 2006.

  2. Ciach A.
    Wpływ kształtu naczynia na równowagi fazowe w układach niejednorodnych przestrzennie (fazy lamelarne).
    IPPT, Warsaw, Poland, 2006.

  3. Garstecki P.
    Bubbles and droplets in microchannels: formation, transport and applications.
    Department of Power and Aeronautical Engineering , Warsaw, Poland, 2006.

  4. Garstecki P.
    Bubbles and droplets in microfluidics – formation, non-linear phenomena and applications.
    Institute of Fundamental Technological Research, Warsaw, Poland, 2006.

  5. Garstecki P.
    Bubbles and droplets in microfluidics.
    Institut of Science et d Ingenierie Supramolecu-laires, Strasbourg, France, 2006.
    Institute of Physics, Polish Academy of Science, Warsaw, Poland, 2006.

  6. Garstecki P.
    Bubbles and droplets in microfluidics: formation and transport.
    Chemistry Department, University of Technology, Warsaw, Poland, 2006.

  7. Garstecki P.
    Bubbles and drops in microfluidics.
    Institute of Theoretial Physics, Warsaw, Poland, 2006.

  8. Garstecki P.
    Dynamic control of electrostatic interac-tions in soft matter; liquid crystals, colloidal and polymer systems.
    Merck, Darmstadt, Germany, 2006.

  9. Garstecki P.
    Multiphase flows in microfluidics.
    KOC University, Istanbul, Turkey, 2006.

  10. Hołyst R.
    Evaporation in nano and microscale.
    Universite Paris Sud, Orsay, France, 2006.

  11. Hołyst R.
    Evaporation/condensation in nano and microscale.
    Ecole Normale Superieure, Lyon, France, 2006.

  12. Hołyst R.
    Lepkość płynów złożonych.
    IChF PAN, Warsaw, Poland, 2006.

  13. Hołyst R.
    Parowanie i kondensacja w mikroskali.
    IPPT, Warsaw, Poland, 2006.

  14. Hołyst R.
    Spinodal decomposition in mixtures of polymers and liquid crystals.
    Universite Claude-Bernard Lyon, Lyon, France, 2006.

  15. Hołyst R.
    Zasady wariacyjne w podziale przestrzeni: od plastra miodu w równowadze do plastra miodu daleko od równowagi.
    Jagiellonian University in Cracow, Department of Physics, Cracow, Poland, 2006.

  16. Poniewierski A.
    Nematyczny ciekły kryształ w kontakcie z podłożem o periodycznej strukturze chemicznej i geometrycznej.
    Department of Physics, Warsaw University, Warsaw, Poland, 2006.

  17. Szymański J.
    Does shear rate influence the temperature of the phase transition in the system of wormlike micelles?
    Unilever Research and Development, Port Sunlight, United Kingdom, 2006.

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