Add to ORKGUnwanted gas bubbles are a challenge for microfluidic-based systems, as adherence to channel networks can disrupt fluid delivery. This is especially true for devices with biological applications, as the presence of a single bubble creates thin fluid films with extremely high shear stresses, which can damage biological samples. Current strategies to remove bubbles require complicated fabrication or off-chip components. This thesis describes an on-chip microfluidic strategy utilizing permeation for in-plane trapping and removal of occasional gas bubbles. The trap was demonstrated with nitrogen bubbles, which were consistently removed at a rate of 0.14 µL/min for a single trap, and shown to have long-term operation capability by removing appro...
As humans prepare for the exploration of our solar system, there is a growing need for miniaturized ...
Microbubbles have applications in industry and life-sciences. In medicine, small encapsulated bubble...
In a microfluidic environment, the presence of bubbles is often detrimental to the functionality of ...
Unwanted gas bubbles are a challenge for microfluidic-based systems, as adherence to channel network...
We report an analysis of pressure-driven bubble elimination for a gas-permeable microfluidic device....
Abstract We demonstrate and explain a simple and efficient way to remove gas bubbles from liquid-fil...
Microfluidic systems are used in a wide range of applications, including medical diagnostics, cell e...
This paper presents a simple and efficient method for removing gas bubbles from a microfluidic syste...
As a simple, clean and effective tool, micro bubbles have enabled advances in various lab on a chip ...
It is difficult to remove and eliminate bubbles in microchannels in many devices used in various bio...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
We present a novel, fully integrated microfluidic bubble trap and debubbler. The 2-layer structure, ...
Microfluidic platforms use controlled fluid flows to provide physiologically relevant biochemical an...
Within the overall objective of developing a low dead volume technology for basic microfluidic valvi...
Unintendedly introduced gas bubbles in channels can significantly interfere with performance and beh...
As humans prepare for the exploration of our solar system, there is a growing need for miniaturized ...
Microbubbles have applications in industry and life-sciences. In medicine, small encapsulated bubble...
In a microfluidic environment, the presence of bubbles is often detrimental to the functionality of ...
Unwanted gas bubbles are a challenge for microfluidic-based systems, as adherence to channel network...
We report an analysis of pressure-driven bubble elimination for a gas-permeable microfluidic device....
Abstract We demonstrate and explain a simple and efficient way to remove gas bubbles from liquid-fil...
Microfluidic systems are used in a wide range of applications, including medical diagnostics, cell e...
This paper presents a simple and efficient method for removing gas bubbles from a microfluidic syste...
As a simple, clean and effective tool, micro bubbles have enabled advances in various lab on a chip ...
It is difficult to remove and eliminate bubbles in microchannels in many devices used in various bio...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
We present a novel, fully integrated microfluidic bubble trap and debubbler. The 2-layer structure, ...
Microfluidic platforms use controlled fluid flows to provide physiologically relevant biochemical an...
Within the overall objective of developing a low dead volume technology for basic microfluidic valvi...
Unintendedly introduced gas bubbles in channels can significantly interfere with performance and beh...
As humans prepare for the exploration of our solar system, there is a growing need for miniaturized ...
Microbubbles have applications in industry and life-sciences. In medicine, small encapsulated bubble...
In a microfluidic environment, the presence of bubbles is often detrimental to the functionality of ...