Efficient mass transfer enhancements as the result of acoustically oscillated gas bubbles are detected using a microelectrode positioned at variable distances from the gas/liquid interface
When a gaseous bubble in liquid is excited by acoustic waves, it oscillates in harmony with the wave...
Modern industry is always striving for process optimization and reducing emissions, which in many ca...
Wave motions appear on the surface of a single-bubble rising in liquid when the bubble Reynolds numb...
The interaction of a tethered bubble with sound is demonstrated using novel electrochemical characte...
This paper describes the approach to bubble related phenomena using a novel ‘acoustoelectrochemical'...
Proper understanding and control of the mass transfer capability of acoustically-driven gas bubbles ...
A bubble driven to oscillate by a sound field can be detected electrochemically via mass transfer en...
The oscillation of a gas bubble driven by an acoustic field has been investigated using an electroch...
The objective of our work is to demonstrate that significant enhancement of gas-liquid mass transfer...
Coupling electrochemistry to ultrasound had led to numerous applications. In this work, a microelect...
In the present paper, the influence of pressure amplitudes and frequencies of dual-frequency acousti...
Gas bubbles are the most powerful acoustical sources and sensors that occur naturally in liquids. Th...
The formation, growth and detachment of gas bubbles on electrodes are omnipresent in electrolysis an...
When a bubble oscillates under the action of an acoustic field, it generates a cavitational microstr...
An experimental study was conducted of the nonlinear coupling between the surface and volume modes ...
When a gaseous bubble in liquid is excited by acoustic waves, it oscillates in harmony with the wave...
Modern industry is always striving for process optimization and reducing emissions, which in many ca...
Wave motions appear on the surface of a single-bubble rising in liquid when the bubble Reynolds numb...
The interaction of a tethered bubble with sound is demonstrated using novel electrochemical characte...
This paper describes the approach to bubble related phenomena using a novel ‘acoustoelectrochemical'...
Proper understanding and control of the mass transfer capability of acoustically-driven gas bubbles ...
A bubble driven to oscillate by a sound field can be detected electrochemically via mass transfer en...
The oscillation of a gas bubble driven by an acoustic field has been investigated using an electroch...
The objective of our work is to demonstrate that significant enhancement of gas-liquid mass transfer...
Coupling electrochemistry to ultrasound had led to numerous applications. In this work, a microelect...
In the present paper, the influence of pressure amplitudes and frequencies of dual-frequency acousti...
Gas bubbles are the most powerful acoustical sources and sensors that occur naturally in liquids. Th...
The formation, growth and detachment of gas bubbles on electrodes are omnipresent in electrolysis an...
When a bubble oscillates under the action of an acoustic field, it generates a cavitational microstr...
An experimental study was conducted of the nonlinear coupling between the surface and volume modes ...
When a gaseous bubble in liquid is excited by acoustic waves, it oscillates in harmony with the wave...
Modern industry is always striving for process optimization and reducing emissions, which in many ca...
Wave motions appear on the surface of a single-bubble rising in liquid when the bubble Reynolds numb...
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