Researchers have achieved quantum "alchemy" that allows them to alter the properties of materials using high-powered ...

Scientific discovery rarely arrives in a single, dramatic moment. It usually emerges through careful experiments, revised equations, unexpected field observations, and years of incremental progress.

Nuclear fusion, which operates on the same principle that powers the sun, is expected to become a sustainable energy source for the future. To achieve fusion power generation, it is essential to ...

A new scientific review outlines how a little understood class of battery materials could help deliver safer, higher energy lithium ion batteries while reducing reliance on critical metals such as ...

The continuous development of bright, stable and highly coherent high-energy light sources is a propellant to the fields of material science, biomedical imaging, ultrafast spectroscopy, and industrial ...

The highest energy neutrino ever detected from space may finally have an origin story. Mathematical analyses suggest that the ghost particle could’ve come from a theoretical object known as a ...

Engineers have unlocked a new class of supercapacitor material that could rival traditional batteries in energy while charging dramatically faster. By redesigning carbon structures into highly curved, ...

Researchers are exploring AI-powered digital twins as a game-changing tool to accelerate the clean energy transition. These digital models simulate and optimize real-world energy systems like wind, ...

Achieving high-energy density remains a key objective for advanced energy storage systems. However, challenges, such as poor cathode conductivity, anode dendrite formation, polysulfide shuttling, and ...

Four Stanford graduate students — Akshay Rao Ph.D. ’26, Edward Apraku Ph.D. ’26, Jimin Zhou Ph.D. ’26 and Juliet Nwagwu Ume-Ezeoke Ph.D. ’26 — were named Siebel Scholars in recognition of their ...