Martin Brinkmann
Martin Brinkmann
Experimental Physics, Saarland University
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Droplet based microfluidics
R Seemann, M Brinkmann, T Pfohl, S Herminghaus
Reports on progress in physics 75 (1), 016601, 2011
Wetting morphologies at microstructured surfaces
R Seemann, M Brinkmann, EJ Kramer, FF Lange, R Lipowsky
Proceedings of the National Academy of Sciences 102 (6), 1848-1852, 2005
Morphological clues to wet granular pile stability
M Scheel, R Seemann, M Brinkmann, M Di Michiel, A Sheppard, ...
Nature materials 7 (3), 189-193, 2008
Design principles for superamphiphobic surfaces
HJ Butt, C Semprebon, P Papadopoulos, D Vollmer, M Brinkmann, ...
Soft Matter 9 (2), 418-428, 2013
Wetting and dewetting of complex surface geometries
S Herminghaus, M Brinkmann, R Seemann
Annu. Rev. Mater. Res. 38, 101-121, 2008
Wetting morphologies on substrates with striped surface domains
M Brinkmann, R Lipowsky
Journal of applied physics 92 (8), 4296-4306, 2002
Comprehensive comparison of pore-scale models for multiphase flow in porous media
B Zhao, CW MacMinn, BK Primkulov, Y Chen, AJ Valocchi, J Zhao, ...
Proceedings of the National Academy of Sciences 116 (28), 13799-13806, 2019
Characterization of super liquid-repellent surfaces
HJ Butt, IV Roisman, M Brinkmann, P Papadopoulos, D Vollmer, ...
Current opinion in colloid & interface science 19 (4), 343-354, 2014
Contact line pinning on microstructured surfaces for liquids in the Wenzel state
PSH Forsberg, C Priest, M Brinkmann, R Sedev, J Ralston
Langmuir 26 (2), 860-865, 2010
Capillary-dominated fluid displacement in porous media
K Singh, M Jung, M Brinkmann, R Seemann
Annual Review of Fluid Mechanics 51, 429-449, 2019
Wettability controls slow immiscible displacement through local interfacial instabilities
M Jung, M Brinkmann, R Seemann, T Hiller, M Sanchez de La Lama, ...
Physical Review Fluids 1 (7), 074202, 2016
Liquid distribution and cohesion in wet granular assemblies beyond the capillary bridge regime
M Scheel, R Seemann, M Brinkmann, M Di Michiel, A Sheppard, ...
Journal of Physics: Condensed Matter 20 (49), 494236, 2008
Drops on functional fibers: from barrels to clamshells and back
HB Eral, J de Ruiter, R de Ruiter, JM Oh, C Semprebon, M Brinkmann, ...
Soft Matter 7 (11), 5138-5143, 2011
Enhancement of capillary forces by multiple liquid bridges
EJ De Souza, M Brinkmann, C Mohrdieck, E Arzt
Langmuir 24 (16), 8813-8820, 2008
The role of local instabilities in fluid invasion into permeable media
K Singh, H Scholl, M Brinkmann, MD Michiel, M Scheel, S Herminghaus, ...
Scientific reports 7 (1), 444, 2017
Capillary forces between chemically different substrates
EJ De Souza, M Brinkmann, C Mohrdieck, A Crosby, E Arzt
Langmuir 24 (18), 10161-10168, 2008
On the onset of motion of sliding drops
C Semprebon, M Brinkmann
Soft Matter 10 (18), 3325-3334, 2014
Switching liquid morphologies on linear grooves
K Khare, S Herminghaus, JC Baret, BM Law, M Brinkmann, R Seemann
Langmuir 23 (26), 12997-13006, 2007
Droplets, bubbles, and vesicles at chemically structured surfaces
R Lipowsky, M Brinkmann, R Dimova, T Franke, J Kierfeld, X Zhang
Journal of Physics: Condensed Matter 17 (9), S537, 2005
Surface Hydrophobicity Causes SO2 Tolerance in Lichens
M Hauck, SR Jürgens, M Brinkmann, S Herminghaus
Annals of Botany 101 (4), 531-539, 2008
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