A research team led by Professor Jiwoong Yang of the Department of Energy Science and Engineering at DGIST has developed next ...

Atomic Force Microscopy (AFM) is pivotal in nanoscience, offering high-resolution imaging and manipulation for advancements in semiconductors and life sciences.

US scientists' work reveals how the shape and arrangement of metallic nanoframes can be harnessed to control energy flow, paving the way for advances in sensing, catalysis and quantum information ...

Dark spots within lightwaves break the speed of light in new research confirming a half-century-old prediction.

Argonne and Northwestern University scientists teamed up to understand how light interacts with metallic nanoframes, with implications for biosensing, quantum information science and beyond.

Grain boundaries determine how strong a material is: the more grain boundaries, the stronger the material. Grain boundaries move through a material, but how this movement works had until now remained ...

The university also expects the lab to serve as a resource for local companies seeking advanced materials analysis and ...

Recent advances in optical imaging and sensing have significantly improved our ability to investigate biological and material systems. However, many ...

Scientists have created a microscopic QR code so tiny it can only be seen with an electron microscope—smaller than most bacteria and now officially a world record. But this isn’t just about size; it’s ...

The medical landscape undergoes a rapid transformation as precision becomes the standard of care. At the heart of this ...

The pixels in phone screens and other OLED displays appear to provide a uniform glow, but a team of University of Michigan ...

The researchers are now able to further increase the amplitude of the scan angle multiplier by making additional changes inside their invention. They have started a company, called Pacific Optica, to ...