Research Articles
Trapping Tiny Treasures: How Vortex Sorting Is Revolutionizing Cell Separation
Explore how vortex sorting in microcavities is transforming cell separation technology, enabling precise isolation of rare cells like circulating tumor cells with incredible efficiency.
Building Life from Scratch: How Biomaterials and Microfluidics are Revolutionizing Tissue Engineering
Explore how biomaterials-based microfluidics is transforming tissue engineering through precise control of cellular environments and advanced 3D bioprinting technologies.
The 3D-Printed Sheath Flow SERS Chip: Revolutionizing Chemical Detection
Discover how 3D-printed sheath flow SERS technology combines microfluidics and surface-enhanced Raman spectroscopy for revolutionary chemical detection capabilities.
The Cell Tug-of-War: How Invisible Forces are Revolutionizing Single-Cell Manipulation
Explore how negative dielectrophoresis and bipolar electrodes are transforming single-cell manipulation through Faradaic ion enrichment and depletion.
The Flow Within: How Microscopic Rivers Shape Our Blood Vessels
Exploring how macro- and microscale fluid flow systems influence endothelial cell biology and vascular health.
When Chips Meet Drops: The Incredible Fusion of Microelectronics and Microfluidics
Explore the groundbreaking integration of CMOS microsensors with open microfluidic systems and how it's transforming biological research and drug development.
The Parkinson's Puzzle: How a Tiny Worm in a Micro-Chip is Cracking the Code
Discover how scientists use C. elegans worms in microfluidic chips to study Parkinson's disease, enabling high-throughput drug screening and real-time observation of neurodegeneration.
The Cell Sorter of the Future: A Gentle Touch to Separate the Rare from the Rest
Discover how dielectrophoresis and microfluidics are revolutionizing cell sorting with a gentle, continuous, and precise method for isolating rare cells in medicine and research.
The Cellular Observatory: How Microchip Technologies Are Revolutionizing Our View of Biological Cells
Exploring how microchip technologies are transforming single-cell analysis and revolutionizing our understanding of cellular biology.