Elysian, long-range electric planes fly 1000 km only on batteries
With batteries up to 500 Wh/kg, Elysian plans to cover 50% of long-haul commercial flights. We'll need to work on it.
With batteries up to 500 Wh/kg, Elysian plans to cover 50% of long-haul commercial flights. We'll need to work on it.
Graphene and special electrolytes make the Nanotech Energy battery non-flammable: ideal for e-bikes, robotics and military applications
Scotland pioneers eco-friendly recycling with bacteria that 'eat' batteries, isolating cobalt, manganese, nickel and lithium for new applications
Pi-Pop raises the sustainability rate of E-bikes: no more lithium, no recharging, just kinetic energy to make it move
The rather vaguely named mini electric car uses interchangeable Gogoro batteries for faster and more convenient electric mobility.
BTRY, a spin-off of the Swiss federal laboratories Empa, presents thin, safe and eco-friendly batteries that can be recharged in one minute.
Japanese researchers develop Nafion-based air batteries. Let's take a look?
MIT develops supercapacitor concrete that could turn our homes and streets into giant electric batteries, revolutionizing the way we store green energy.
PNNL researchers find that adding sugar to electrolytes increases the energy of flow batteries by 60% and extends their life.
Forget black gold, here's phosphate: a Norwegian mine promises to cover global demand for battery minerals for a century.
C-PVEH, a new high-performance device, promises to power the future of the Internet of Things by transforming vibrations into electricity.
At the University of Washington developed the prototype of a device that collects and uses energy from an antenna. Will the cell phones of tomorrow be like this?
ATES: the technology that can transform aquifers into natural "batteries" to store thermal energy and reduce emissions
Recycling batteries is necessary, but terribly complex. A new method promises to completely transform it, revolutionizing the field.
Lignin as an alternative to graphite can represent an improvement for both the environment and performance for batteries.
Harness soil bacteria to create a biochemical reserve of energy. A brilliant and ambitious idea, just financed in the UK.
The second life of batteries is a way to make a product last much longer that, far from being perplexed, is really (much) more ecological than fossils.
The University of California develops high-density batteries that withstand very hot and very cold temperatures without batting an eye.
At half the price of lithium-ion batteries, CO2 batteries are set to kickstart a revolution in renewable energy.
Laptops are increasingly a part of a person's life, the main one who needs them to function. For this, a computer of this type needs a quality battery. The Laptop Battery Dilemma When the first laptops appeared on the market, it was quickly realized that their batteries did not have the highest accuracy of life. At the end of a while, they began to last less time, both… Read more
New batteries announced that could revolutionize the transition to electric vehicles in just a few years.