Manufacturing Metal-Organic Framework-Based Composites for Efficiency
By Michelle Revels
Manufacturing Metal-Organic Framework-Based Composites for Efficiency: Dr. Qingsheng Wang, associate professor and George Armistead ‘23 Faculty Fellow in the Artie McFerrin Department...
Material that can Learn Like the Brain
by Ecole Polytechnique Federale de Lausanne
Material that can Learn Like the Brain: EPFL researchers have discovered that Vanadium Dioxide (VO2), a compound used in electronics,...
Water Separates into Two Different Liquids
Fresh evidence that water can change from one form of liquid into another, denser liquid, has been uncovered by researchers.
The research was carried out...
Rechargeable Grid Storage Batteries
Rechargeable Grid Storage Batteries: Over the past few years, scientists have been hard at work trying to develop rechargeable zinc-manganese dioxide batteries into a...
Plastic that is Degradable and Highly Recyclable
by University of Turku
Plastic that is Degradable and Highly Recyclable: A research group headed by senior researcher Jianwei Li at the MediCity Research Laboratory has...
Potential Bioindicators for Monitoring Plastic Pollution
by National Institute of Standards and Technology
Potential Bioindicators for Monitoring Plastic Pollution: With an estimated 8 million metric tons of plastic waste escaping to our...
Compost to computer Using Bio-Based Materials
Compost to computer Using Bio-Based Materials: UNIVERSITY PARK, Pa. — What do corncobs and tomato peels have to do with electronics? They both can...
International Space Station Tests Materials in Space
by Melissa Gaskill, NASA
International Space Station Tests Materials in Space: Space may look empty, but it contains extreme temperatures, high levels of background radiation, micrometeoroids,...
3D-printed Enable Highly Efficient Hydrogen Evolution
by Li Yuan, Chinese Academy of Sciences
3D-printed Enable Highly Efficient Hydrogen Evolution: Water electrolysis is an effective method for producing hydrogen using renewable sources of...
New Inks For 3D-Printable Wearable Bioelectronics
A Texas A&M teamhas developed a new class of biomaterial inks that mimic native characteristics of highly conductive human tissue.
By Alleynah Veatch Cofas, Texas...