Tag: lithium ion

There’s hope for better batteries

David Prendergast, Berkeley LabScientists at Berkeley Lab think there’s light at the end of the tunnel as people quest to develop better alternatives to lithium ion batteries.

The problem with Li-ion batteries is that they sometimes burst into flames but we need rechargeable batteries with better energy density and cost reductions.

After running a series of simulations on supercomputers, David Prendergast and Liwen Wan (pictured) think a battery based on a multivalent ion, like magnesium (Mg), may well be the answer.

They think that an Mg-ion battery can provide twice the electrical current of Li-ions with the same density.  There have been problems with Mg-ion batteries but the scientists think that the problems aren’t insuperable.

“The catch for multivalent ions is that their increased charge draws more attention to them – they become surrounded in the battery’s electrolyte by other oppositely charged ions and solvent molecules – which can slow down their motion and create energetic penalties to exiting the electrolye for the electrodes. However, we found the problem may be less dire than is widely believed,” said Prendergast.

He said the simulations show that performance bottlenecks in Mg-ion batteries are related to what happens at the interface between the electrolyte and electrodes.

Essentially, Mg-ion based batteries are not as tricky as manufacturers might think as a result of the Berkeley Lab findings.

We’re all running out of juice!

alkaline batteryAs we’re soon going to be swamped by even more smartphones, tablets, wearable devices and notebooks there’s an urgent need for better battery technologies real soon now.

That’s according to ABI Research which said that by 2019 there will be eight billion devices on the planet – a billion more than there are people right now.

If you’ve got a smartphone, you probably realise that the smarter they get the more electricity they take and that trend is going nowhere but upwards over the next few years.

ABI Research points out that the holy grail doesn’t lie with lithium and graphite batteries, nor with micro USB chargers.  But it claims that silicon anode batteries from the likes of Leyden Energy and Amprius, as well as germanium based devices may hold out hope for the charging nightmare we even now face, in 2014.

“The opportunity is enormous,” said Nick Spencer, a senior director at ABI Research. “The average advanced market home has over 10 untethered devices with rechargeable batteries today.” Spencer reckons that if wearables take off, along with electric cars and the internet of things, the demand will be even greater.

But, thinks TechEye, we’ve been promised better battery technology for years and thus far no-one has picked up that particular baton. So let’s see how it all pans out.