For now, that goal remains elusive. The lab-grown cells stopped developing at an immature stage. Many hurdles need to be ...
Fort Lewis College is making quantum computing and nanotechnology big – at least, metaphorically. a $127 million federal and ...
Underpinning much of modern technology, from smartphones to scanning tunneling microscopes to particle colliders, is Fermi's ...
It took two scientists decades to find a new nitrogen-fixing organelle. It could change the future of sustainable agriculture ...
Spread the love“`html Whether you’re a budding scientist or a curious student exploring the microscopic world, having the ...
The goal of creating synthetic cells is not to replace nature, but to learn more deeply about biology and reengineer it to ...
From overcoming classical optical limits to tracking single proteins in real time, super-resolution imaging continues to ...
This Greening Chemistry column highlights an easy-to-overlook but important factor that affects both a laboratory’s energy ...
UCSF researchers are using tiny "mini-organs" to model disease, personalize treatment, and understand human development. They ...
Unlike almost every other kind of microscope, atomic-force microscopes (AFMs) don’t use any kind of optical beam to image ...
What do you call an organism with no evolutionary ancestors? SpudCell, apparently ...
This cell-like structure can grow, feed, divide and compete. Researchers ponder what it means for the future of synthetic ...