Micro/nano‐robots are powerful tools for biomedical applications and are applied in disease
diagnosis, tumor imaging, drug delivery, and targeted therapy. Among the various types of …

Acoustofluidics is an emerging interdisciplinary research field that involves the integration of
acoustics and microfluidics to address challenges in various scientific areas. This …

Acoustofluidics has been a promising approach using sound waves to manipulate particles
and actuate fluids in biomedical applications. It usually generates acoustic radiation force …

Surface acoustic wave (SAW) technology has been widely used to manipulate
microparticles and biological species, based on acoustic radiation force (ARF) and drag …

Three-dimensional (3D) bioprinting, a promising advancement in tissue engineering
technology, involves the robotic, layer-by-layer additive biofabrication of functional 3D tissue …

Standing surface acoustic waves (sSAW) emerged as a flexible tool for precise manipulation
of spherical and non-spherical objects in Lab-on-a-Chip devices. While the manipulation of …

Diagnosis of cancer by biomarkers plays an important role in human health and life.
However, current laboratory techniques for detecting cancer biomarkers still require …

Manipulating cells into patterned distributions has essential applications in biomedical
engineering. Surface acoustic waves (SAWs) have received much attention as a simple …

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 …

All cells possess an innate ability to respond to a range of mechanical stimuli through their
complex internal machinery. This comprises various mechanosensory elements that detect …