For decades, traditional lithography techniques—such as electron beam lithography and nanoimprinting—have struggled to meet the demand for ultra-fine, high-aspect-ratio structures in general. Similar ...

Researchers 3D print next-generation precision RF devices by combining two-photon polymerization (2PP), electroplating, and ...

This milestone represents a major advance in the fabrication of next-generation RF and metamaterial components ... include integrating other functional materials or building multi-layer structures to ...

Credit: Surjadi et al, MIT The metamaterial's structure is so tiny that MIT's samples range from "several square microns to several square millimeters" across, according to the institute.

An origami-inspired ‘metamaterial’ has been engineered to have properties not found in natural materials — enabling it to undergo large, reversible deformations. Read the paper: Modular ...

That's a real, er, stretch. But it's exactly what a team of researchers at MIT are claiming their new "strong but stretchy" metamaterial could enable. A metamaterial, in case you're wondering ...

Now a team has taken inspiration from origami to create a modular metamaterial system. These units couple twisting movement with compression or expansion, and by combining these modules in ...

The invention is a metamaterial, which is a material engineered to feature new and unusual properties that depend on the material's physical structure rather than its chemical composition.

Engineers have fabricated a metamaterial that is not only strong but also stretchy. Their new method could enable stretchable ceramics, glass, and metals, for tear-proof textiles or stretchy ...

TDK Corp. has expanded its MPZ1608-PH series of large-current multilayer chip beads for automotive and commercial power supply lines (1.6 x 0.8 x 0.6 mm – L x W x H). Mass production of the product ...