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.

Cardiovascular diseases (CVDs) are the key factors leading to death and disability worldwide. This severe challenge has prompted the scientific research and ...

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

A research group led by Prof. Yang Liangbao from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences ...

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

Rice’s Naomi Halas is the recipient of the 2025 Benjamin Franklin Medal in chemistry, awarded “for the creation and development of nanoshells — metal-coated nanoscale particles that can capture light ...

Scientists have identified nanoparticles that latch onto and destroy virus membranes, opening new possibilities for antiviral ...

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

Silver nanoparticles (Ag-NPs) have long been celebrated for their antimicrobial properties. These microscopic marvels find applications in fields ranging from medicine to food preservation. However, ...

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

The Phase 1b/2a study will assess the safety of CNP-103 in adults (aged 18-35) and pediatrics (aged 12-17) who have Stage III or newly diagnosed (within the last 6 months) T1D as well as C-peptide ...