Add to ORKGLiquid breakup at the macroscale has been studied extensively for over a hundred years, but breakup at the nanoscale has only recently attracted attention. The recent studies have been computational in nature, with molecular dynamics as the tool of choice, because experimental studies at the nanoscale are challenging. The focus of the present work is on the breakup of liquid nanocylinders. Nanocylinders are encountered in several engineering applications and biological systems, e.g. printing on micro-circuitry, precision manufacturing, gene- and drugdelivery to cells, Golgi apparatus. Breakup at the nanoscale is primarily through the Rayleigh capillary mechanism since the Reynolds numbers are low. The specific research question we address i...
We study the breakup of confined fluid threads at low flow rates to understand instability mechanism...
Dissipative particle dynamics (DPD) is an emerging mesoscopic computational method in which the inte...
Studies of capillary breakup phenomena of liquid filaments are classically related to liquid-air int...
In this work, we use a dissipative-particle-dynamics-based model for two-phase flows to simulate the...
The theoretical framework developed by Rayleigh and Plateau in the 19th century has been remarkably ...
ABSTRACT: We consider nanometer-sized fluid annuli (rings) deposited on a solid substrate and ask wh...
We present new findings on how the presence of particles alters the pinch-off dynamics of a liquid b...
In this work, we use a dissipative-particle-dynamics (DPD)-based two-phase model to study the breaku...
The Rayleigh-Taylor (RT) interfacial instability has been attributed to physical phenomenon in a wid...
International audienceWe study both experimentally and theoretically the fragmentation of droplets c...
Nanoliter-droplet breakup in either symmetrically or asymmetrically confined T-shaped junctions is e...
\u3cp\u3eWe study the effects of thermally induced capillary waves in the fragmentation of a liquid ...
Using a non-equilibrium molecular dynamics, argon nanojet injection was simulated under vacuum condi...
International audienceCombining experiments and theory, we investigate the break-up dynamics of defo...
Computations of the breakup of a liquid bridge are used to establish the limits of applicability of ...
We study the breakup of confined fluid threads at low flow rates to understand instability mechanism...
Dissipative particle dynamics (DPD) is an emerging mesoscopic computational method in which the inte...
Studies of capillary breakup phenomena of liquid filaments are classically related to liquid-air int...
In this work, we use a dissipative-particle-dynamics-based model for two-phase flows to simulate the...
The theoretical framework developed by Rayleigh and Plateau in the 19th century has been remarkably ...
ABSTRACT: We consider nanometer-sized fluid annuli (rings) deposited on a solid substrate and ask wh...
We present new findings on how the presence of particles alters the pinch-off dynamics of a liquid b...
In this work, we use a dissipative-particle-dynamics (DPD)-based two-phase model to study the breaku...
The Rayleigh-Taylor (RT) interfacial instability has been attributed to physical phenomenon in a wid...
International audienceWe study both experimentally and theoretically the fragmentation of droplets c...
Nanoliter-droplet breakup in either symmetrically or asymmetrically confined T-shaped junctions is e...
\u3cp\u3eWe study the effects of thermally induced capillary waves in the fragmentation of a liquid ...
Using a non-equilibrium molecular dynamics, argon nanojet injection was simulated under vacuum condi...
International audienceCombining experiments and theory, we investigate the break-up dynamics of defo...
Computations of the breakup of a liquid bridge are used to establish the limits of applicability of ...
We study the breakup of confined fluid threads at low flow rates to understand instability mechanism...
Dissipative particle dynamics (DPD) is an emerging mesoscopic computational method in which the inte...
Studies of capillary breakup phenomena of liquid filaments are classically related to liquid-air int...