Scientists from Universidad Carlos III de Madrid (UC3M) and Harvard University have experimentally demonstrated that it is possible to reprogram the mechanical and structural behavior of innovative ...

OMAMs, multifunctional tunable ultradeep subwavelength metamaterials, enable the generation of multiple arbitrary acoustic fields with ultradeep subwavelength resolution, facilitate the switching ...

The integration of flexible magnets in metamaterials allows for reprogrammable structures, offering vast potential in robotics and biomedical engineering.

Engineers print synthetic 'metamaterials' that are both strong and stretchy A new method could enable stretchable ceramics, glass, and metals, for tear-proof textiles or stretchy semiconductors ...

MIT 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 ...

This collection of videos showcases creative, DIY musical instrument projects. From an acoustic parlor guitar made from ...

(Nanowerk News) In metamaterials design, the name of the game has long been “stronger is better.” Metamaterials are synthetic materials with microscopic structures that give the overall material ...

The Northwestern team plans to apply the approach to multifunctional metamaterials with thermal, acoustic, or biological properties, and to develop generative design tools that use machine learning 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.