“Selective-area embedded regrowth of III-V semiconductors by molecular beam epitaxy enables the seamless integration of metals and dielectrics into crystalline material for novel design of ...

Researchers from National Taiwan University break traditional frameworks by unveiling a new symmetry-transition mechanism in ZrO 2 thin films, achieving ultra-stable antiferroelectric behavior for up ...

“As DRAM technology nodes move into the sub-10 nm regime, capacitor scaling is increasingly constrained by both footprint loss and a hard physical thickness limit for the entire ...

If you enjoyed this article, I’d like to ask for your support. Scientific American has served as an advocate for science and industry for 180 years, and right now may be the most critical moment in ...

A new elastic calcium phosphate material that closely resembles the structure of human bone has been successfully created by a research team from the Department of Orthopedics and Traumatology at the ...

In critical fields such as aerospace, military, and industrial manufacturing, surface protection of components has been a longstanding challenge. Ceramic materials with high melting points, hardness, ...

ABSTRACT: Background: Changes in body position are associated with changes in functional residual capacity, elastic recoil pressure, and total lung capacity (TLC). Exponential analysis over the entire ...

James grew up in the arcades of the 80s and has played games on everything from the Milton Bradley Microvision to the PlayStation 5. He worked in gaming retail during the PS1/PS2 eras, and even had a ...

Recent research published in the Journal of Advanced Ceramics proposed a new design strategy focusing on mean cation radius and oxygen vacancy concentration, leading to the discovery of new HEFO ...