Modern imaging is contributing significantly to giving us a better understanding of how our brains work. In the long term, ...

For the first time, scientists have peered into living cells and created videos showing how they function with unprecedented 3D detail. Using a special microscope and new lighting techniques, a team ...

A new momentum microscopy experimental station for photoelectron spectroscopy resolved in 3D momentum space with a microscopic field of view has been built at BL6U of UVSOR *, Institute for Molecular ...

The field of tissue engineering aims to replicate the structure and function of real biological tissues. This engineered tissue has potential applications in disease modeling, drug discovery, and ...

Using artificial intelligence (AI), researchers can now follow cell movement across time and space. The method could be very helpful for developing more effective cancer medications. The enormous ...

Editor’s note: Neighbor Spotlight is a monthly feature that aims to let our readers learn more about the people in their communities who are working to make them a better place, who have interesting ...

On October 14, a team of scientists at Boston University released a pre-print study reporting that they had created a version of SARS-CoV-2 combining two features of different, existing strains that ...

Aging, neurological diseases and our bodies' stress response are all linked to the tiny power plants inside each cell known ...

The Carl Zeiss AURIGA CrossBeam Focused Ion Beam Electron Microscope is a state-of-the-art advanced scanning electron microscope integrated with high-resolution focused ion beam milling that enables ...

The JEOL JEM 2010 is a high-resolution electron microscope with an accelerating voltage of 200KV, and a point resolution of 0.19 nm. Equipped with a 5-axis micro-active goniometer, the JEOL HRTEM ...