Scientists at Washington State University have developed a new kind of flexible wireless system that could change how communication devices are made....
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Maroc - TECHXPLORE.COM - RSS news feed - 13/Jan 16:24
Today, nearly all personal electronic devices rely on antennas to send and receive data. In fact, demand is also rising for lightweight antennas for new applications, including the latest in 5G/6G networks, advanced wearable devices and aerospace applications like CubeSats. However, standard manufacturing techniques have limited the structural complexity and use of multiple materials that would unlock still more features and capabilities from antennas.
Scientists at Washington State University have developed a new kind of flexible wireless system that could change how communication devices are made....
When engineers dream about lighter aircraft, longer-range EVs, and nimble drones, one family of metals keeps resurfacing: magnesium-lithium alloys....
Washington State University-led researchers have developed a chip-sized processor and 3D printed antenna arrays that could someday lead to flexible...
A collaboration between the University of Michigan and AFRL has...
A collaboration between the University of Michigan and AFRL has...
Engineers in Scotland are developing eco-friendly circuit boards that could make wireless communication devices greener and more sustainable. The...
Engineers in Scotland are developing eco-friendly circuit boards that could make wireless communication devices greener and more sustainable. The...
A new open-source software tool is changing the way engineers design and print complex 3D objects. Developed at the University of Colorado Boulder,...
A new open-source software tool is changing the way engineers design and print complex 3D objects. Developed at the University of Colorado Boulder,...
To meet the growing demands of flexible and wearable electronic systems, such as smart watches and biomedical sensors, electronics engineers are...