Scientists at Yokohama National University, in collaboration with RIKEN and other institutions in Japan and Korea, have made ...

Researchers have unlocked a new way to manipulate electrons in molecules with terahertz light, paving the way for faster ...

Scientists have developed a groundbreaking AI-driven technique that reveals the hidden movements of nanoparticles, essential ...

The molecular structure of the motor component that powers the gliding apparatus of Mycoplasma mobile, one of the few mycoplasma bacteria that can move, has been revealed using cryo-electron ...

The referred specimen of the enantiornithine bird Shangyang sp. (IVPP V 26899) was recovered near La-Ma-Dong Village in Jian-Chang County, within the Jiufotang Formation (dated ∼120 Ma). It can be ...

In an article published in Opto-Electronic Advances a research team from the Key Laboratory of Optoelectronic Technology and System, Chongqing University, Chongqing, China discussed a single-beam ...

To better understand plasmonic resonance, researchers first excite electrons around a particle, then wait for them to release their excess energy by emitting an electron. By timing that interval ...

Researchers make use of small-angle X-ray scattering to reveal potential-dependent structural changes in redox enzymes used in bioelectrochemical devices Redox enzymes are proteins that catalyse ...

According to diffraction measurements made with an electron microscope, the new material appeared "disorganized" at smaller scales, yet with a distinct order and symmetry apparent at a larger scale.

To solve this problem we developed a multispectral light scattering endoscopic imaging system. It surveys the entire esophageal lining and accurately detects subcellular dysplastic changes.