Captain America’s star-spangled shield can stand up against the universe’s most powerful forces all thanks to vibranium. This ...

Researchers develop 3D-printable graphene ink for widespread health, industrial and environmental applications.

Michigan Engineering professors Elizabeth Holm and Nicholas Kotov are among the newest members of the National Academy of Engineering—one of the highest honors bestowed on engineers in the United ...

Just as a snowflake's intricate structure vanishes when it melts and transforms when it refreezes, the microstructure of ...

A major challenge in self-powered wearable sensors for health care monitoring is distinguishing different signals when they occur at the same time. Researchers addressed this issue by uncovering a new ...

To create the new batteries needed for electric vehicles, mobile devices and renewable energy storage, researchers have ...

Mantis shrimp are among the ocean’s most formidable predators, delivering one of the most powerful and fastest punches in the ...

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease modeling, soft robotics and more, according to researchers at Penn State.

The unique structure of PAMs has the potential to transform industries, from healthcare to robotics, by offering properties never before seen in materials science. PAMs represent a bold step forward ...

Epoxy resins are coatings and adhesives used in a broad range of familiar applications, such as construction, engineering and ...

Researchers have revealed novel sequence-structure-property relationships for customizing engineered living materials (ELMs), enabling more precise control over their structure and how they respond to ...

A new hydrogel material combines the characteristics of biological tissues with the electronic functionalities of ...