Maintaining existing lattice towers is crucial due to their age, corrosion, and inability to withstand extreme weather, requiring careful evaluation and reinforcement. Decisions to repair or replace ...

Scientists at the RIKEN Center for Emergent Matter Science (CEMS) in Japan have discovered a way to make a superconducting thin film from iron telluride, which is surprising because it is not normally ...

A study used DNA origami to form 2D fishnet structures on silicon, testing growth conditions and advancing DNA-assisted lithography for optical materials.

Build a stylish and functional privacy wall without using traditional lattice perfect for patios, backyards, or urban gardens ...

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

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.

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

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

Thermal integrity profiling (TIP) can detect anomalies, measure concrete cover, and identify soil inclusions without the need ...

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

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