Detergent Powder Inspired Battery Will Power Mobiles For 5 Days In A Single Charge; EVs Can Run For 10000 Kms!
Now mobiles can run for five days on a single charge. According to a new research, a lithium-sulfur battery can keep your smartphone charged for five days straight. Something revolutionary is just around the corner to happen.
The Australian researchers have claimed that the battery can run the smartphone for five days.
The interesting part is here about the battery. Not only a smartphone, the developed lithium-sulfur battery is capable of running an electric car for more than 1,000 kilometers.
Lithium-Sulfur Battery: What’s Working Behind The Tech?
Researchers from Monash University in Melbourne, Australia is said to have developed this lithium-sulfur battery. It’s a new combination, and is claimed to be the “world’s most efficient.” The creators say that the lithium-sulfur battery will outperform traditional batteries by four times.
The researchers will soon commercialize their latest innovation, and wants the lithium-sulfur batteries fight against climate change.
They claim, if the lithium-sulfur batteries are widely accepted, this may be a significant breakthrough in the field of efficient eco-friendly energies.
Currently almost all the batteries are lithium-ion. With lithium-sulfur combination, it can be a highly effective alternative offering much more energy density empowering power objects to stay in the run for long.
Big Lithium-Sulfur Disadvantage: Why Lithium-Sulfur Batteries May Not Work?
Compared to lithium-ion batteries, the combination of lithium-sulfur batteries pose a big disadvantage. The lithium-sulfur batteries have a shorter lifespan compared to the existing lithium-ion units. It’s not the first time lithium-sulfur batteries are being experimented with.
Some of the lithium-sulfur batteries are already used in a few aircrafts and cars.
Already in the past some attempts have been made to mass produce lithium-sulfur batteries, but they failed.
It’s not going to be easy to phase out lithium-ion batteries and bring them to replace with mass produced lithium-sulfur batteries. The other aspects have to be taken into account as well.
The battery experts from the Faraday Institution have claimed that using lithium-sulfur batteries at a wide scale have some big disadvantages. Firstly, the use of sulfur is not a suitable choice. Sulfur are insulating in nature and hence degrade quickly in the presence of metallic lithium anode.
New Change: How Different Are These Lithium-Sulfur Batteries?
The Researchers from Monash University, Melbourne have supposedly reconfigured the design of sulfur cathodes. The sulfur can now withstand higher stress loads offering top performance without hiccups.
The lithium-sulfur batteries will help to offer a cleaner and more reliable energy market.
The research has received funding from the Australian government, and the lithium-sulfur battery technology has already been patented. We further need to wait and see how the technology is further adapted, and whether it enters the mass market or not.
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