Tunable Optofluidic Curvature for Micromanipulation

Abstract: Manipulating micro/nanoparticles on deformed liquid interfaces induced by radiation pressure presents an active, non‐invasive, and contactless method. However, a significant challenge arises due to the relatively small magnitude of the radiation force in normal incidence. Nevertheless, this technique holds immense utility in controlling particle movement at interfaces, with numerous applications in both physical and biological contexts. To overcome this, the peculiar properties of total internal reflection (TI… Show more

“…Optofluidics is a rising technology that combines microfluidics and optics, which are widely used in various fields. 1–3 One of its goals is to manipulate flowing liquids and suspension microparticles in the microscale channels. Microvessels in living animals are a typical microfluidic channel.…”

Laser-induced microbubble as an in vivo valve for optofluidic manipulation in living Mice's microvessels

“…Optofluidics is a rising technology that combines microfluidics and optics, which are widely used in various fields. 1–3 One of its goals is to manipulate flowing liquids and suspension microparticles in the microscale channels. Microvessels in living animals are a typical microfluidic channel.…”

Laser-induced microbubble as an in vivo valve for optofluidic manipulation in living Mice's microvessels

Probing interplay of light momentum and fluid mechanics in two-layer liquids

Liquid drop interferometry on reflective surfaces