Themed collection Andreas Manz – Pioneer, Mentor, Friend

We mark the 30th anniversary of the Science paper by Harrison et al. that is often credited for helping establish microfluidics as a research field.

Establishment of fluorinated glass surfaces via a PTFE-assisted plasma modification strategy for room-temperature bonding of nanofluidic chips.

3D printing of membrane-integrated devices for chemotaxis studies of aquatic animals.

An alternative method for epigenetic sample preparation by a rotationlly-driven, microfluidic sodium bisulfite conversion system for up to four samples in parallel.

Two-stage tuberculosis diagnostics from a single sample.

A novel microfluidics platform is introduced for generating tumoroids in droplets, enabling effective drug screening of chemotherapies on both cancer cell lines and patient-derived xenografts.

This paper describes a novel integrative technology to fabricate a self-assembled and vascularized tumor array via bioprinting on a microfluidic chip for the recreation of a tumor microenvironment.

We present a multi-material DLP 3D printer containing a vat inclination system and peristaltic pumps for resin replacement and vat cleaning. With this system, it is possible to produce microfluidic devices containing microchannels as narrow as 43 μm.

A 3D-printed modular droplet injector successfully delivered microcrystals of human NAD(P)H:quinone oxidoreductase 1 (NQO1) and phycocyanin with electrical stimulation in a serial crystallography experiment at 120 Hz repetition rate.

We introduce μVAST, a high-throughput acoustic microstreaming platform using second-order microstreaming to induce fluid transport and measure the viscosity of 16 samples, automating process flows in drug development, materials manufacturing and production.

We present a microfluidic platform that combines the capabilities of valve-based microfluidics with droplet-based sample compartmentalization to realize programmable fluid handling.

The first DSC chip that features thin-film enclosures, very low-addenda heat capacity, low residual heat conduction, and rapid response for analyzing liquids.

We introduce a thermoplastic microfluidic device for the detection of cancer biomarkers by competitive immunoassays. Immobilization of different antibody-protein pairs is achieved by laser-assisted protein adsorption by photobleaching.

The development of a filtration flow device system with precisely controlled pressure revealed the mechanobiology of filtration flow to podocytes regarding morphological and gene expression maturation and increased sensitivity to toxic drugs.

We developed a fluidic circuit board for simultaneous perfusion of up to twelve 3D vessels-on-a-chip under comparable wall shear stress using a single set of control parameters despite high intrinsic sample diameter variation.