Manipulation of micro-objects have been playing an essential role in biochemical analysis
or clinical diagnostics. Among the diverse technologies for micromanipulation, acoustic …

Acoustofluidic technologies that integrate acoustic waves and microfluidic chips have been
widely used in bioparticle manipulation. As a representative technology, acoustic tweezers …

Achieving controlled mobility of microparticles in viscous fluids can become pivotal in
biologics, biotechniques, and biomedical applications. The self-assembly, trapping, and …

As a next-generation toolkit, microrobots can transform a wide range of fields, including
micromanufacturing, electronics, microfluidics, tissue engineering, and medicine. While still …

Microparticle manipulation and trapping play pivotal roles in biotechnology. To achieve
effective manipulation within fluidic flow conditions and confined spaces, it is necessary to …

Rolling is a ubiquitous transport mode utilized by living organisms and engineered systems.
However, rolling at the microscale has been constrained by the requirement of a physical …

Microfluidic systems offer versatile biomedical tools and methods to enhance human
convenience and health. Advances in these systems enables next-generation microfluidics …

Advances in additive manufacturing in composites have transformed aerospace, medical
devices, tissue engineering, and electronics. A key aspect of enhancing properties of 3D …

Recent years have witnessed the transformative impact from the integration of artificial
intelligence with organic and polymer synthesis. This synergy offers innovative and …

Shape transformation, a key mechanism for organismal survival and adaptation, has gained
importance in developing synthetic shape-shifting systems with diverse applications ranging …