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

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.

A research team has developed a revolutionary two-dimensional polyaniline (2DPANI) crystal that overcomes major conductivity ...

Maintaining Quality in Composites Prep for Strong Bonds . Bond failures can have severe consequences for manufacturers, ...

A research team has developed a biodegradable polymer-based delivery system that efficiently transports mRNA.

A research team led by Professor Won Jong Kim from the Department of Chemistry at POSTECH, in collaboration with the Korea ...

A research team from POSTECH has developed a biodegradable polymer-based delivery system that efficiently transports mRNA.

Caltech engineers have developed inkjet-printed core-shell nanoparticles for durable wearable sweat sensors, enabling ...

Researchers from the University of Minho in Portugal started with silicone rubber polymer and added zirconia nanoparticles to make the material attract water molecules. After they rolled the composite ...

Essentially, the tufts of tiny hairs on gecko feet get so close to the contours in walls and ceilings that electrons from the ...

Caltech engineers have developed a technique that enables the mass production of sweat sensors to monitor biomarkers.

Described as core–shell cubic nanoparticles by the Caltech team, nanoparticles are central to the function of the biosensors.