Lattice structures underpin much of modern materials science, providing a fundamental framework to understand the arrangement of atoms, electrons, or quasi-particles in a variety of physical systems.

Scientists get peacock feathers to emit laser light after adding dye and green pulses, revealing surprising biophotonic ...

Using a diamond as a quantum simulator, scientists created a rondeau time crystal, which exhibited both long-range temporal ...

Researchers have identified a new magnetic state that blends stability with electrical readout, a key challenge in future ...

Xiaomi has expanded its smartwatch lineup in China with the launch of the Xiaomi Watch 5, alongside the Xiaomi 17 Ultra. The ...

Firm pillows tend to get their backbone from materials like memory foam (solid or shredded), supportive latex, or denser, ...

Mathematician Katie Steckles explains just why the proliferation of snowflake decorations this time of year is deeply ...

Researchers discover that embedding iridium atoms inside catalyst crystals instead of on the surface dramatically improves ...

Layered double hydroxides (LDHs) are emerging as promising electrocatalysts for the oxygen evolution reaction (OER), a key barrier in clean hydrogen ...

The unique properties of high-entropy alloys make them ideal for hydrogen storage, offering advantages in stability and ...

Researchers accidentally formed gold hydride under extreme pressure, challenging gold’s long-held inert reputation and ...

Graphene is often described as a wonder material. It is strong, electrically conductive, thermally efficient, and remarkably ...