Effect of particle size on the stripping dynamics during impact of liquid marbles onto a liquid film

Abstract: The robust attachment of particles at fluid interfaces is favorable for engineering new materials owing to large capillary energy, but it meets significant challenges when particle removal is a requirement....

“…9,10 The outer particles of LMs are repeatedly used owing to the low wettability between the particles and the inner liquid (recyclable). [11][12][13] The easy recyclability of outer particles and lossless inner liquid transportation make LMs a promising technology for achieving a circular economy. Hence, the physical properties of LMs, such as multilevel robustness based on the application environment, have been intensively studied.…”

Liquid marbles: review of recent progress in physical properties, formation techniques, and lab-in-a-marble applications in microreactors and biosensors

“…9,10 The outer particles of LMs are repeatedly used owing to the low wettability between the particles and the inner liquid (recyclable). [11][12][13] The easy recyclability of outer particles and lossless inner liquid transportation make LMs a promising technology for achieving a circular economy. Hence, the physical properties of LMs, such as multilevel robustness based on the application environment, have been intensively studied.…”

Liquid marbles: review of recent progress in physical properties, formation techniques, and lab-in-a-marble applications in microreactors and biosensors

Suppression of droplet pinch-off by early onset of interfacial instability