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 team demonstrated the use of the launcher in a smart seed robot by attaching a seed and radio-frequency identification ...

Researchers at Ghent University in Belgium are working on the development of advanced 3D-printed hydrogels for radiation ...

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.

The hydrogel and biological tissue adhesion in ... connect soft and hard surfaces in robotics in a durable fashion and generally banish adhesives and suturing from time-honored fields.

The researchers said it could also be used for 3D bioprinting customizable hydrogels or for developing soft robotics with adaptable mechanical properties. "Our next steps include optimizing ...