The EU funded POLYACT project applied textile fabrication principles to the production of microactuators, offering a range of biomedical applications both inside and outside the body. There are a ...

Usually created from highly compliant, often bio-inspired materials, soft microrobots occupy a fascinating sub-field of robotics. With their flexibility and adaptability, they find deployment in an ...

We are providing an unedited version of this manuscript to give early access to its findings. Before final publication, the manuscript will undergo further editing. Please note there may be errors ...

Using a new precision bonding process they developed, Penn State researchers have designed and fabricated tiny new piezoelectric microactuators -- the largest only a hair's breadth wide -- based on ...

Reconfigurable structures that can repeatedly change their three-dimensional shape without manual intervention represent a long-standing goal in microscale engineering. A new origami-inspired ...

The integration of graphene into organic films is an effective strategy for creating nimble electrical microactuators. Electrical microactuators have particularly promising applications in biology, ...

Using a new precision bonding process they developed, Penn State researchers have designed and fabricated tiny new piezoelectric microactuators -- the largest only a hair's breadth wide -- based on ...