Appliction of an AC current results in a self-sustaining oscillating polymer surface.
Printed Electronics: Print Your Own Speakers
Researchers from Chemnitz University of Technology have printed flexible and lightweight polymer speakers.
Recyclable Plastic Composites from Industrial Wastes
Recent research on cellulose–sulfur composites made from industrial wastes has successfully achieved all three Rs: reduce, reuse, recycle.
Living Well With Plastics: The Politics of the Plastics Crisis
Despite the many benefits of plastics, the global plastic system is increasingly being recognized as the source of severe environmental problems.
Not a Stretch: Flexible Hydrogels with Structural Color
New hydrogels from magnetic photonic crystal units combine the advantages of structural colour and the flexibility needed for biological applications.
Thermochemotherapy, Helical Hydrogels, and More
Since 2012, Advanced Healthcare Materials has been bringing you the latest breakthroughs in biomedical materials science with a strong focus on improving human health, and it will continue to do so in 2019. We therefore have launched virtual issues on five hot topics...
Melt Electrowriting: Where Are We Now?
The latest advances and perspectives for the future of melt electrowriting (MEW) technology.
Self-Healing Hydrogels for Wearable Electronics
Electrically conductive hydrogels are a promising platform for flexible supercapacitors and batteries.
Bioinspired and Biobased Materials
Macromolecular Chemistry and Physics highlights the latest in bioinspired polymers research.
Plasma Improves Adhesion of 3D Printing
Scientists from the University of La Rioja in Spain showed how polyoxymethylene (POM) can be an excellent engineering material for 3D printing when an atmospheric pressure air plasma treatment is applied on a polycarbonate (PC)‐printing base.