HKUMed develops a near-infrared-activated smart titanium implant surface that clears bacteria in 15 minutes and promotes bone ...

A research team from the Department of Orthopedics and Traumatology, School of Clinical Medicine, LKS Faculty of Medicine at ...

A hydrogen-bond-mediated molecular bridging strategy is proposed to overcome the trade-off in photocathodic protection, enabling round-the-clock ...

In biology, defects are generally bad. But in materials science, defects can be intentionally tuned to give materials useful ...

How do you play The Defect in Slay the Spire 2? After a deadly battle against The Heart, The Defect was forced to retreat to the scrapyard after sustaining critical damage. It quickly made friends ...

Laurence is an avid writer, gamer, and traveller with several years of journalistic writing experience under his belt. Having helped create a student-focused magazine at university, he is keen to ...

Researchers in the Perelman School of Medicine at the University of Pennsylvania have identified a cell surface receptor ...

Within the context of semiconductor inspection and failure analysis, latent defects present a significant challenge because they make it difficult to determine whether a fault originated during ...

Cornell University researchers have used high-resolution 3D imaging to detect atomic-scale defects in ICs. The imaging method was the result of a collaboration with TSMC and ASM and the research was ...

Imagine sculpting steel not with a chisel, but with a 3500℃ electric arc. That’s the power of carbon arc gouging—a technology ...

Titanium dioxide is a contender for the most controversial of all food additives. Banned in some regions, but not others, concerns persist that the whitening agent – used in popular confectionery, ...

The Defect is a returning character in Slay the Spire 2 with its own unique innate mechanic, allowing it to channel orbs. These are essentially different kinds of energy that grant various passive and ...