Acoustic tweezers provide an effective means for manipulating single cells and particles in a
high-throughput, precise, selective and contact-free manner. The adoption of acoustic …

Acoustic microfluidic devices are powerful tools that use sound waves to manipulate micro-
or nanoscale objects or fluids in analytical chemistry and biomedicine. Their simple device …

Liquid droplets have been studied for decades and have recently experienced renewed
attention as a simplified model for numerous fascinating physical phenomena occurring on …

Acoustic actuation of fluids at small scales may finally enable a comprehensive lab-on-a-
chip revolution in microfluidics, overcoming long-standing difficulties in fluid and particle …

Acoustical tweezers based on focalized acoustical vortices hold the promise of precise
contactless manipulation of millimeter down to submicrometer particles, microorganisms …

Acoustic tweezers have recently raised great interest across many fields including biology,
chemistry, engineering, and medicine, as they can perform contactless, label-free …

Despite increasing demand in the manipulation of nanoscale objects for next generation
biological and industrial processes, there is a lack of methods for reliable separation …

Acoustic tweezers are gaining increasing attention as a noncontact method that is capable
of handling microparticles and nanoparticles in a controllable manner. By designing the …

Acoustofluidics offers contact-free manipulation of particles and fluids, enabling their uses in
various life sciences, such as for biological and medical applications. Recently, there have …

Separation of nano/microparticles based on surface acoustic waves (SAWs) has shown
great promise for biological, chemical, and medical applications ranging from sample …