Since the pioneering work of Kawata and colleagues in 1997, multi‐photon 3D laser
printing, also known as direct laser writing, has made significant advancements in a wide …

Additive manufacturing is an expanding multidisciplinary field encompassing applications
including medical devices 1, aerospace components 2, microfabrication strategies 3, 4 and …

Acoustic microfluidic devices have advantages for diagnostic applications, therapeutic
solutions, and fundamental research due to their contactless operation, simple design, and …

Acoustic holography offers the ability to generate designed acoustic fields to manipulate
microscale objects. However, the static nature or large aperture sizes of 3D printed acoustic …

Acoutofluidics is an increasingly developing and maturing technical discipline. With the
advantages of being label-free, non-contact, bio-friendly, high-resolution, and remote …

Lanthanide-doped upconversion nanoparticles (UCNPs) are attractive luminescent
materials for nanophotonic applications under near-infrared excitation, but their full potential …

This article presents an in-depth exploration of the acoustofluidic capabilities of guided
flexural waves (GFWs) generated by a membrane acoustic waveguide actuator (MAWA). By …

Mechanical metamaterials are emerging as an important tool in many engineering
applications, where microarchitectured lattices have advantages of high strength-to-weight …

Acoustofluidic micromanipulation is an important tool for biomedical research, where
acoustic forces offer the ability to manipulate fluids, cells, and particles in a rapid …

The utilization of acoustic fields offers a contactless approach for microparticle manipulation
in a miniaturized system, and plays a significant role in medicine, biology, chemistry, and …