By enabling higher-voltage, longer-lasting supercapacitors, the innovation aligns with Aatma Nirbhar Bharat and India's clean ...

Indian researchers have developed a high-voltage supercapacitor that could improve the performance of electric vehicles and ...

Conventional electrolytes used in commercial supercapacitors can operate between 2.5–3.0 V and begin to decompose or face ...

The 3.4-volt device offers higher energy density, longer life and simpler design for electric vehicles and renewable energy ...

Supercapacitors have long promised electric vehicles that refill in minutes, grids that shrug off sudden surges, and gadgets that never seem to wear out, but their limited energy storage has kept them ...

Engineers have achieved a breakthrough that could redefine the future of energy storage. Scientists at Monash University have developed a novel carbon-based material for supercapacitors that combines ...

Scientists have set themselves the goal of improving these ubiquitous, fast storage devices by developing a new kind of electrode based on graphene. Supercapacitors are the nimble little siblings of ...

To reproduce what Thomas Edison did, with the tools and knowledge we have now, is very exciting,” said co-author James Tour, ...

Researchers from Texas A&M University have shown that a supercapacitor responds to charging by stretching and expanding, storing energy. This discovery can be applied to the construction of novel ...

(Nanowerk Spotlight) The proliferation of wearable devices—from smart watches to AR glasses—necessitates ever-smaller on-board energy solutions that can deliver bursts of power while remaining ...

While graphene has long been heralded as the future of supercapacitors, new research indicates that fibers from hemp plants can contain as much energy and power as graphene itself. What’s more, its ...