Recent technological advances have enabled the development of increasingly sophisticated and energy-efficient displays for ...

It is a question as old as stereos: how much do the cables in your system affect the sound? Here is everything you need to ...

A team of Northwestern scientists has developed an electroactive "scaffolding" material that improves bladder tissue ...

A transparent polymer developed by Purdue University could revolutionise display technology with its low power consumption, ...

Innovative glucose monitoring leverages spore-forming bacteria in a self-powered platform, enhancing accuracy and reliability ...

In a major advancement for energy storage, researchers have developed an innovative in situ polymerized quasi-solid polymer ...

Developed by Professor Guillermo Ameer, the material improves bladder tissue regeneration and overall function better than ...

Limitations of sodium-sulfur batteries and a promising solution. Current sodium-sulfur battery designs suffer from poor ...

Scientists describe their construction of complementary, internal, ion-gated, organic electrochemical transistors that are more amenable chemically, biologically and electronically to living tissues ...

Researchers from Fujian Normal University have developed a novel dual salt-based quasi-solid polymer electrolyte for ...

Meet the ASRock B650E Taichi Lite motherboard. It’s a high-end motherboard with a mid-tier AM5 chipset. The “E” in the B650E ...

So how do your print your own TENG? First, you load up an electrically conductive PLA filament and lay down a base into which a series of channels has been designed. At around the half-way point ...