The team, led by scientists from Harvard University and Lawrence Livermore National Laboratory,
employed a microfluidic assembly technique to produce microcapsules that contain liquid sorbents, or absorbing materials, encased in highly permeable polymer shells.
Not exact matches
The breakthrough technology uses a simple mechanical method that has been shown to be more effective in trapping cancer cells than the
microfluidic approach
employed in many existing devices.
In tandem with this trend,
microfluidic devices using conductive liquid metals have been increasingly
employed as wearable pressure and strain sensors.