Researchers at Brigham Young University have demonstrated the ability to create microfluidic lab-on-a-chip devices with channels and valves smaller than ever before. Using a new 3D printing technique, ...

Micro injection molding has become a cornerstone for mass-producing microfluidic devices, yet demolding defects and mold wear remain persistent challenges. This study introduces a nickel mold ...

A fabrication process can produce self-heating microfluidic devices in one step using a multimaterial 3D printer. These devices, which can be made rapidly and cheaply in large numbers, could help ...

The beverage industry continually seeks innovative methods to ensure product quality, safety, and compliance with global health standards. Microfluidic devices have emerged as a pivotal technology in ...

In a recent breakthrough, researchers from MIT have introduced an innovative technique involving multi-material 3D printing to create self-heating microfluidic devices. MIT researchers developed a ...

Microfluidic lab-on-a-chip devices guide tiny fluid volumes through one or several analytical paths on a single integrated circuit, emulating the sort of miniaturization seen in microelectronic ...

3D Printing Revolution: From Microelectronics to Microfluidics.This image illustrates the transformative role of 3D printing technology in the fabrication of microelectronic and microfluidic devices.

New nickel-PTFE nanocomposite mold integrates lubricating particles directly into the matrix, achieving over 1,500 defect-free molding cycles without coatings for microfluidic devices. (Nanowerk News) ...

Stephen Quake, a bioengineer and applied physicist at Stanford University, has always been interested in the interface between physics and biology. During his work at the California Institute of ...