energy storage devices
3D rendered layout of the idealised iOWC and system schematic displaying dimensions ( CREDIT: Antonio
A breakthrough technology for the commercialization of cheaper, safer aqueous rechargeable batteries
Causes of hydrogen generation and incessant accumulation within the cell in the aqueous rechargeable batteries
Figure 1: Schematics of the FlyGrid system from grid to vehicle. A flywheel energy storage
Buoyancy Energy Storage, (a) the system and main components, (b) forces exerted in the buoyancy
Fluorenone is used in solar panels, LEDs, pharmaceuticals—and now as a way to store energy
Graphene hybrids (left) made from metal organic frameworks (MOF) and graphenic acid make an excellent
In the near future, new plant-based supercapacitor could charge electric cars in a few minutes.
Chemists in Arts & Sciences have developed a method to make or modify “smart bricks”
An international team of scientists, including a professor of chemistry from the University of Bristol,
Washable, wearable ‘batteries’: based on cheap, safe and environmentally-friendly inks and woven directly into fabrics,
Researchers from Drexel University and Trinity College in Ireland, have created ink for an inkjet
Design for system that provides solar- or wind-generated power on demand should be cheaper than
Potential uses of new technology range from medical devices and wearables to smart packaging A
Dubbed “Methuselah”, new molecule outlives previous chemistries Highlights: > Harvard researchers have demonstrated the longest-lasting
A KAIST research team developed a new hybrid energy storage device that can be charged