Microfluidics provides a great opportunity to create devices capable of outperforming
classical techniques in biomedical and chemical research. In this review, the origins of this …

Three-dimensional (3D) bioprinting has become mainstream for precise and repeatable
high-throughput fabrication of complex cell cultures and tissue constructs in drug testing and …

Novel applications of micro total analysis systems (μTAS) are addressing fundamental
biological questions, creating new biomedical reagents, and developing innovative cell and …

We report that a droplet dispensed from a micropipette almost always has a considerable
electrical charge of a magnitude dependent on the constituents of the droplet, on …

Microfluidics is an emerging technology of flow and control of fluids in microscale volume
that offers highly specialized solutions to rapid, sensitive, noninvasive analysis and …

A three-dimensional (3D) tissue model has significant advantages over the conventional two-
dimensional (2D) model. A 3D model mimics the relevant in-vivo physiological conditions …

Hydrodynamic phenomena are ubiquitous in living organisms and can be used to
manipulate cells or emulate physiological microenvironments experienced in vivo …

Local interactions between (bio) chemicals and biological interfaces play an important role
in fields ranging from surface patterning to cell toxicology. These interactions can be studied …

Delivery of very small amounts of reagents to the near-field of cells with micrometer spatial
precision and millisecond time resolution is currently out of reach. Here we present μkiss as …

Performing localized chemical events on surfaces is critical for numerous applications. We
earlier invented the microfluidic probe (MFP), which circumvented the need to process …