Layered drug nanoparticles can now be produced efficiently and at scale using a microfluidic method that eliminates purification and improves consistency. Since its adaptation to nanoscale materials, ...

A lab-on-a-disc system enables 90 precise and reproducible nanoparticle syntheses in minutes by automatically controlling reagent concentrations across parallel reactions with minimal manual input.

AI has designed candidate drugs for antibiotic-resistant infections and genetic diseases. But efforts to incorporate AI into the design of lipid nanoparticles (LNPs), the revolutionary delivery ...

A highly sensitive and reusable surface-enhanced Raman spectroscopy (SERS) microfluidics system was developed by Shanghai Jiao Tong University (SJTU) researchers, which was able to achieve a detection ...

Genizer's NanoMixer is a microfluidic mixer designed for laboratory use. This nanomixer prepares mRNA, DNA, siRNA delivery systems, and various other nanoparticles. It is an electronic device that ...

Anna-Maria earned her PhD in synthetic biology from Eindhoven University of Technology, where she honed her ability to transform complex science into real-world solutions. At Nanoworx, she oversees ...

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 ...

The primary components of LNP–RNA are ionizable lipids, cholesterol, PEGylated lipids, and phospholipids, which together form the nanoparticle, along with the active pharmaceutical ingredient, RNA.