Discover the transformative power of bond repair treatments for natural hair as we explore their benefits for damaged or weakened hair. We explain the science behind these treatments, showcase a ...

A unique class of chlorine-resistant membranes is set to enhance the performance of processes requiring zero liquid discharge ...

Scientists in China have performed an experiment first proposed by Albert Einstein almost a century ago when he sought to ...

Scientists have uncovered new details explaining why iron oxide minerals are such effective long-term carbon traps in soils.

New research offers clearer insight into how phase transitions unfold at the atomic scale in real materials. When ice turns into water, the change happens almost instantly. Once the melting ...

Prebonding conditions and dative bond formation in actinide(IV)hexachloride complexes with U, Np, and Pu are studied by density functional theory (DFT) calculations, focusing on the interplay of ...

UNIVERSITY PARK, Pa. — Seventy years ago, in Osmond Laboratory on Penn State’s University Park campus, Erwin W. Müller, Evan Pugh Research Professor of Physics, became the first person to see an atom.

Atomic coordination patterns in bulk materials can predict stable MXene structures, offering a new design framework that expands the 2D materials landscape beyond conventional synthesis routes.

Abstract: All-optical neuromorphic chips offer a scalable alternative to electronic systems, requiring efficient integration of III/V semiconductor optical amplifiers (SOAs) onto silicon photonics.

Graphene is often regarded as one of the strongest known materials. It is about 200 times stronger than steel while remaining exceptionally lightweight and flexible. 1 Despite these advantages, ...