Microfluidics for Spatial Transcriptomics: Mapping Gene Expression in 3D Spatial transcriptomics represents one of the most powerful advances in molecular and cellular biology, combining high-resolution imaging, sequencing, and spatially resolved molecular profiling to reveal how genes are expressed within intact tissue sections. By preserving spatial organization, it enables scientists to map gene expression and mRNA distribution in situ, providing insight into [...] Read more
Microfluidics for Spatial Proteomics, mapping proteins in context Spatial proteomics is rapidly emerging as a transformative approach in biological research, offering a new way to reveal how protein expression and proteome organization vary across tissue architecture and cellular environments. Unlike traditional proteomic methods that dissociate cells or homogenize tissue, spatial proteomics preserves [...] Read more
Microfluidics for Spatial Biology: Precision at the cellular scale Spatial biology is transforming how scientists study complex biological systems, not just by identifying which genes or proteins are active, but by revealing where they act within tissues, and how cells interact in their native microenvironment. At its core, it combines imaging [...] Read more
Industrial microfluidics: from Lab-on-a-Chip to Lab-on-a-Manifold Microfluidic technology has transformed fluid control by enabling the precise handling of small volumes of liquids for research and industrial microfluidic systems. Initially developed as lab-on-a-chip platforms, this innovation introduced [...] Read more
Explore the potential of precision fluid control for droplet microfluidics Droplet microfluidics is a cutting-edge approach within the broader field of microfluidic systems, enabling the controlled generation and manipulation of discrete fluid compartments—typically in the sub-nanoliter to picoliter volume range—within microscale channels. Each droplet acts as an independent microreactor, offering a confined [...] Read more
Exploring the Advances in Flow Chemistry thanks to Microfluidic Integration Flow chemistry is a transformative approach to chemical synthesis that harnesses the power of continuous processes to enhance reaction efficiency, control, and scalability. In contrast to traditional batch chemistry, where reactions occur statically and parameters can be challenging to [...] Read more
