Li-Cycle makes Li-ion batteries environmentally friendly and nearly 100% reusable
A major obstacle on the road to the transition to electric can be removed by a new method of recycling lithium batteries.
A major obstacle on the road to the transition to electric can be removed by a new method of recycling lithium batteries.
Finally rechargeable, finally stable: Stanford "solves" the problems of the chlorine battery: a great energy coup.
Fourth Power introduces an ultra-effective thermal grid battery, which promises to cost 10 times less than lithium batteries.
BTRY, a spin-off of the Swiss federal laboratories Empa, presents thin, safe and eco-friendly batteries that can be recharged in one minute.
Big Tech moves billions in waste management, but how many valid solutions do we already have?
Can lithium in drinking water affect autism risk? Danish research uncovers a possible connection.
Are you aware of the dependent relationship that the West has with Russian gas? It's nothing compared to what it has with Chinese lithium. How will it end?
Copper nanowires allow a new battery to better organize the particles inside it, improving (greatly) recharging.
A US startup announces the creation of a 3D printed solid-state battery that is smaller, denser and more efficient than lithium batteries. It is recyclable.
Wide spaces of sociability, technological and eco-sustainable. The gas stations of the future will change with the electric revolution.
The Harvard team derives a stable version of lithium metal battery: towards 10 minutes charged cars, which last longer than traditional ones
Great performances, great availability of raw materials and less costs. The lithium-sulfur battery is a candidate to be the energy protagonist of our devices.
The last 10 years have seen half of the forecasts come true: this is what has happened, and here are those for the near future.
Five years is a long time: enough for the Sun to radiate the energy equivalent to all our reserves of oil, coal and natural gas and enough for the world to revolutionize energy in at least 5 ways. Here are 5 energy revolutions that we will see between now and 2024.
Lithium, the main element in the composition of the batteries that power our devices (and also in the war against bipolar personality disorder) is not omnipresent on Earth: several countries are forced to import it from abroad, and this shortage leads to notable swings in the prices of technological devices: the signs of its future scarcity are already there in the ever-increasing price that quality batteries present to buyers. A group of researchers from Tokyo University led by Professor Shinichi Komaba may have… Read more
Professor Michael Ristow and his Japanese colleagues from the Universities of Oita and Hiroshima have demonstrated in two different tests that even low concentrations of Lithium lead to a considerable increase in longevity in humans as well as in other organisms (in this case a type of worm, Caenorhabditis elegans.): the research was published in the European Journal of Nutrition. Lithium is one of the nutritional elements present in vegetables and drinking water: "the scientific community does not yet know the ... Read more
At half the price of lithium-ion batteries, CO2 batteries are set to kickstart a revolution in renewable energy.
Tesla's secret? A super expert, pioneer of lithium-ion batteries. What now he promises: I have their heirs, and they will last a lifetime.
The dean inventor of the lithium-ion battery has managed to patent his glass battery which exhibits exceptional performance in studies.
Graphene batteries are 3 to 5 times faster than lithium-ion batteries, which take around 90 minutes to fully charge.
StoreDots are thinner than normal lithium-ion batteries, contain less lithium, more Germanic and some preserving agents that counteract their decay: the results are amazing.