We use a microfluidic flow-focusing device with integrated electrodes for controlling the production of water-in-oil drops. In a previous work, we reported that very long jets can be formed upon application of AC fields. We now study in detail the appearance of the long jets as a function of the electrical parameters, i.e., water conductivity, signal frequency, and voltage amplitude. For intermediate frequencies, we find a threshold voltage above which the jet length rapidly increases. Interestingly, this abrupt transition vanishes for high frequencies of the signal and the jet length grows smoothly with voltage. For frequencies below a threshold value, we previously reported a transition from a well-behaved uniform jet to highly unstable l...
China Scholarship Council (CSC)European Union’s Horizon 2020 research and innovation program Grant N...
A liquid jet may develop different types of instabilities, like the so-called Rayleigh-Plateau insta...
Concurrent Session 43: SYM-12: Special Symposium: Advances in Microfluidics and Nanofluidics I (ID: ...
International audienceWe use a microfluidic flow-focusing device with integrated electrodes for cont...
We use a microfluidic flow-focusing device with integrated electrodes for controlling the production...
Electroactuation of liquid–liquid interfaces offers promising methods to actively modulate droplet f...
Electroactuation of liquid–liquid interfaces offers promising methods to actively modulate droplet f...
We demonstrate the control of droplet sizes by an ac voltage applied across microelectrodes patterne...
A discussion is presented on the role of limited conductivity and permittivity on the behavior of e...
In this study, we investigated the induction charging of water sprays and the effect of electric fie...
Very thin liquid jets can be obtained using electric field, whereas an electrically-driven bending i...
Electrostatic atomization of a liquid of finite electrical conductivity in the so-called cone-jet re...
Weapply an electric field to amoderately conducting liquid surrounded by another coflowing liquid, ...
Although the majority of atmospheric pressure plasma jet (APPJ) applications involve the interaction...
The breakup of liquid jets is ubiquitous with rich underpinning physics and widespread applications....
China Scholarship Council (CSC)European Union’s Horizon 2020 research and innovation program Grant N...
A liquid jet may develop different types of instabilities, like the so-called Rayleigh-Plateau insta...
Concurrent Session 43: SYM-12: Special Symposium: Advances in Microfluidics and Nanofluidics I (ID: ...
International audienceWe use a microfluidic flow-focusing device with integrated electrodes for cont...
We use a microfluidic flow-focusing device with integrated electrodes for controlling the production...
Electroactuation of liquid–liquid interfaces offers promising methods to actively modulate droplet f...
Electroactuation of liquid–liquid interfaces offers promising methods to actively modulate droplet f...
We demonstrate the control of droplet sizes by an ac voltage applied across microelectrodes patterne...
A discussion is presented on the role of limited conductivity and permittivity on the behavior of e...
In this study, we investigated the induction charging of water sprays and the effect of electric fie...
Very thin liquid jets can be obtained using electric field, whereas an electrically-driven bending i...
Electrostatic atomization of a liquid of finite electrical conductivity in the so-called cone-jet re...
Weapply an electric field to amoderately conducting liquid surrounded by another coflowing liquid, ...
Although the majority of atmospheric pressure plasma jet (APPJ) applications involve the interaction...
The breakup of liquid jets is ubiquitous with rich underpinning physics and widespread applications....
China Scholarship Council (CSC)European Union’s Horizon 2020 research and innovation program Grant N...
A liquid jet may develop different types of instabilities, like the so-called Rayleigh-Plateau insta...
Concurrent Session 43: SYM-12: Special Symposium: Advances in Microfluidics and Nanofluidics I (ID: ...