HIGHLIGHTS
- What: The authors demonstrate that different tweezer designs can also be used to trap and move particles by using a ringshaped boundary.
- Who: Bethany Orme from the Smart Materials and Surfaces Laboratory, Faculty of Engineering and Environment, Northumbria University have published the article: Capillary wave tweezer, in the Journal: Scientific Reports Scientific Reports
SUMMARY
When a spatial gradient is introduced in this time-periodic flow field, such as via a capillary wave (Fig 1e), the particles undergo displacement towards positions of lowest velocity magnitudes and collect stably (Fig 1f)56. In . . .
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