A self-powered heart monitor taped to the skin
Scientists have developed a human-friendly, ultra-flexible organic sensor powered by sunlight, which acts as a self-powered heart monitor. Previously, they developed a flexible photovoltaic...
kinetiX—designing auxetic-inspired deformable material structures
This paper describes a group of auxetic-inspired material structures that can transform into various shapes upon compression. We developed four cellular-based material structure units...
Reversible Self-Assembly of Macroscopic “Polymers”
Programming materials to reconfigure themselves into new structures might sound like science fiction, but researchers are working on exactly that goal. Now a team...
Economical way to produce high-performance thin films for electronics
Researchers at Missouri S&T have found an unprecedented, economical method for creating high-performance inorganic thin films, or “epitaxial” films, used in the manufacture of...
New High-Tech Material Could Shave 8 Pounds from a Marine Grunt’s Load
A revolutionary new material from the company that produces service rifle slings could cut several pounds from the weight Marines carry on their backs.
Blue...
Shrinking the carbon footprint of a chemical in everyday objects
A new method for synthesizing the epoxides found in plastics, textiles, and pharmaceuticals could be powered by electricity.
The biggest source of global energy consumption...
Greener, more efficient natural gas filtration
Novel membrane material removes more impurities, without the need for toxic solvents.
Natural gas and biogas have become increasingly popular sources of energy throughout the...
The vulnerability of a promising two-dimensional semiconductor to air, and discover new catalyst
For the first time ever, an international team of scientists from NUST MISIS, the Hungarian Academy of Sciences, the University of Namur (Belgium), and...
Chemical engineers first to functionalize boron nitride with other nanosystems
Researchers at the University of Illinois at Chicago have discovered a route to alter boron nitride, a layered 2D material, so that it can...
Wearable sensors mimic skin to help with wound healing process
Researchers at Binghamton University, State University of New York, have developed skin-inspired electronics to conform to the skin, allowing for long-term, high-performance, real-time wound...
- Advertisement -