Moving contact line problem: Advances and perspectives

Abstract: The solid-liquid interface, which is ubiquitous in nature and our daily life, plays fundamental roles in a variety of physical-chemical-biologicalmechanical phenomena, for example in lubrication, crystal growth, and many biological reactions that govern the building of human body and the functioning of brain. A surge of interests in the moving contact line (MCL) problem, which is still going on today, can be traced back to 1970s primarily because of the existence of the "Huh-Scriven paradox". This paper, mainl… Show more

“…Drop evaporation has many applications in fields such as microfluidics, lab-on-a-chip, ink-jet printing, combustion and pesticide spraying [1][2][3][4][5][6][7]. In 1977, Picknett and Bexon [8] pioneeringly defined three evaporation modes, viz., constant contact radius mode (CCR mode), constant contact angle mode (CCA mode) and mixed mode.…”

Evaporation of ethanol/water mixture droplets on micro-patterned PDMS surfaces

“…Drop evaporation has many applications in fields such as microfluidics, lab-on-a-chip, ink-jet printing, combustion and pesticide spraying [1][2][3][4][5][6][7]. In 1977, Picknett and Bexon [8] pioneeringly defined three evaporation modes, viz., constant contact radius mode (CCR mode), constant contact angle mode (CCA mode) and mixed mode.…”

Evaporation of ethanol/water mixture droplets on micro-patterned PDMS surfaces

“…[19,20] The scaling laws for the dynamic contact angles and spreading radius are modified. [1,21] Moreover, the shape of a droplet may spread into polygonal bilayer structure, instead of a simple spherical cap. CONTACT ya-Pu Zhao yzhao@imech.ac.cn supplemental data for this article can be accessed here.…”

“…Spreading of a droplet on a micro-structured surface is prevalent in nature, [1,2] and is of key importance in a wide range of applications, such as DNA technologies, [3,4] fog-harvesting, [5,6] inkjet printing, [7][8][9] biomedicine [10,11] and microfluidics. [12,13] To develop these practical applications, dynamic wetting behaviours of a droplet on a textured surface have been investigated extensively in recent years.…”

Dynamic polygonal spreading of a droplet on a lyophilic pillar-arrayed surface

“…Estas divergencias se observan tanto en el esfuerzo de corte local así como también en la tasa de disipación viscosa. Este fenómeno se conoce con el nombre de paradoja de la línea de contacto [25,26]. El origen de estas divergencias radica en el hecho de que el campo de velocidad no queda bien definido allí, ya que la condición de no deslizamiento del fluido sobre 1.2.…”

Formación de estructuras bidimensionales mediante flujos de recubrimiento inestables