DCF Publikationen

Zeitschriftenartikel (41)

  1. 1.
    Thutupalli, S.; Fleury, J.-B.; Steinberger, A.; Herminghaus, S.; Seemann, R.: Why can artificial membranes be fabricated so rapidly in microfluidics? Chemical Communications 49, S. 1443 - 1445 (2012)
  2. 2.
    Sengupta, A.; Pieper, C.; Enderlein, J.; Bahr, C.; Herminghaus, S.: Flow of a nematogen past a cylindrical micro-pillar. Soft Matter 9, S. 1937 - 1946 (2012)
  3. 3.
    Herminghaus, S.: Universal Phase Diagram for Wetting on Mesoscale Roughness. Physical Review Letters 109, 236102 (2012)
  4. 4.
    Clewett, J. P. D.; Roeller, K.; Bowley, R. M.; Herminghaus, S.; Swift, M. R.: Emergent Surface Tension in Vibrated, Noncohesive Granular Media. Physical Review Letters 109, 228002 (2012)
  5. 5.
    Butt, H.-J.; Semprebon, C.; Papadopoulos, P.; Vollmer, D.; Brinkmann, M.; Ciccotti, M.: Design principles for superamphiphobic surfaces. Soft Matter 9, S. 418 - 428 (2012)
  6. 6.
    Mei, S.; Feng, X.; Jin, Z.: Polymer nanofibers by controllable infiltration of vapour swollen polymers into cylindrical nanopores. Soft Matter 9, S. 945 - 951 (2012)
  7. 7.
    Cheng, T. M. K.; Goehring, L.; Jeffery, L.; Lu, Y.-E.; Hayles, J.; Novák, B.; Bates, P. A.: A Structural Systems Biology Approach for Quantifying the Systemic Consequences of Missense Mutations in Proteins. PLoS Computational Biology 8 (10), e1002738 (2012)
  8. 8.
    Herde, D.; Thiele, U.; Herminghaus, S.; Brinkmann, M.: Driven large contact angle droplets on chemically heterogeneous substrates. Europhysics Letters 100, 16002 (2012)
  9. 9.
    Sengupta, A.; Herminghaus, S.; Bahr, C.: Opto-fluidic velocimetry using liquid crystal microfluidics. Applied Physics Letters 101, 164101 (2012)
  10. 10.
    Huang, K.; Brinkmann, M.; Herminghaus, S.: Wet granular rafts: aggregation in two dimensions under shear flow. Soft Matter 8, S. 11939 - 11948 (2012)
  11. 11.
    Uppaluri, S.; Heddergott, N.; Stellamanns, E.; Herminghaus, S.; Zöttl, A.; Stark, H.; Engstler, M.; Pfohl, T.: Flow Loading Induces Oscillatory Trajectories in a Bloodstream Parasite. Biophysical Journal 103, S. 1162 - 1169 (2012)
  12. 12.
    Battiato, I.; Vollmer, J.: Flow-induced shear instabilities of cohesive granulates. Physical Review E 86, 031301 (2012)
  13. 13.
    Benczik, I. J.; Vollmer, J.: A diffusion-induced transition in the phase separation of binary fluid mixtures subjected to a temperature ramp. Europhysics Letters 100, 16001 (2012)
  14. 14.
    Ferraro, D.; Semprebon, C.; Tóth, T.; Locatelli, E.; Pierno, M.; Mistura, G.; Brinkmann, M.: Morphological Transitions of Droplets Wetting Rectangular Domains. Langmuir 28, S. 13919 - 13923 (2012)
  15. 15.
    de Ruiter, R.; de Ruiter, J.; Eral, H. B.; Semprebon, C.; Brinkmann, M.; Mugele, F.: Bouyant Droplets on Functional Fibers. Langmuir 28, S. 13300 - 13306 (2012)
  16. 16.
    Blaschke, J.; Lapp, T.; Hof, B.; Vollmer, J.: Breath figures: Nucleation, growth, coalescence, and size distribution of droplets. Physical Review Letters 109, 068701 (2012)
  17. 17.
    Feng, X.; Mourran, A.; Möller, M.; Bahr, C.: Surface ordering and anchoring behaviour at liquid crystal surfaces laden with semifluorinated alkane molecules. Soft Matter 8, S. 9661 - 9668 (2012)
  18. 18.
    Roeller, K.; Herminghaus, S.: Dynamics of the wet granular Leidenfrost phenomenon. Physical Review E 86, 021301 (2012)
  19. 19.
    Sengupta, A.; Schulz, B.; Ouskova, E.; Bahr, C.: Functionalization of microfluidic devices for investigation of liquid crystal flows. Microfluid Nanofluid 13, S. 941 - 955 (2012)
  20. 20.
    Peddireddy, K.; Kumar, P.; Thutupalli, S.; Herminghaus, S.; Bahr, C.: Solubilization of Thermotropic Liquid Crystal Compounds in Aqueous Surfactant Solutions. Langmuir 28, S. 12426 - 12431 (2012)
 
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