A newly developed material can control and "program" heat, allowing it to direct thermal radiation, switch modes, and ...
Researchers from The Grainger College of Engineering at the University of Illinois Urbana-Champaign have developed the first magnetic multipole-based micromagnetic model for antiferromagnets.
Interesting Engineering on MSN
Simple molecular tweak reveals how to control excitons in 2D perovskites
Two-dimensional perovskites are often seen as leading candidates for future LEDs and solar cells ...
A newly developed framework for understanding the photoproperties of both natural organic matter and eumelanin, a natural ...
A new dry electrode manufacturing process promises enhanced battery performance while reducing manufacturing costs and environmental impact.
Across the sector, several institutions recorded updated fee structures for the current session, with variations across programmes and colleges. The figures reflect published undergraduate tuition ...
Daniel Burke explains why the Tucson, AZ, Fire Department developed a new tactic for fighting attic fires and the details of ...
Energy storage usually brings to mind batteries, capacitors, tanks of hydrogen, or maybe some giant gravity system hauling ...
Tech Xplore on MSN
Moisture-driven tech can power green batteries—and destroy spy gear
Researchers from North Carolina State University and Rice University have created a nontoxic, stretchable battery that operates by extracting moisture from the ambient environment—even in climates as ...
Some 40 years ago, physicists noticed certain metals were conducting electricity in a bizarre way no one could explain. New ...
This cell-like structure can grow, feed, divide and compete. Researchers ponder what it means for the future of synthetic ...
Superconductivity is one of the most exciting mysteries in modern physics. It allows electricity to flow through a material ...
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