The computer chips inside our phones, laptops and other electronic devices contain billions of tiny switches called ...

A new technique could solve one of the biggest challenges in making future computer chips from ultrathin materials.

A team led by Dr. Ha Yoon-Cheol, a Principal Researcher of Next Generation Battery Research Center at the Korea Electrotechnology Research Institute (KERI) and Dr. Cheol-Min Park, a Professor of ...

Magnetic micropillar arrays consist of tiny, vertical pin-shaped structures, arranged in a grid-like pattern. These micropillars can change their shape to a pre-programmed geometry when exposed to a ...

Inside computer chips are billions of tiny transistors made from silicon. But the material is approaching its limits. In an ...

Disulfide bonds are key stabilizing and yet potentially labile cross-links in proteins. While spontaneous disulfide rearrangement through thiol-disulfide exchange is increasingly recognized to play an ...

A team of scientists from the University of Saskatchewan, Canada, has recently demonstrated that chemical agents capable of reducing disulfide (S-S) bonds can be potentially used as antiviral drugs ...

Start of a new segment, Micrograph Monday! In these short segments, I would like to share some cool scans from the AFM, optical microscopes or other instruments I have around the shop. Basically just ...

Cholesterol-dependent cytolysins (CDCs) are a large family of secreted bacterial pore-forming toxins that specifically bind cholesterol-containing mammalian membranes 1. Although the pore size ...