Scientists Deliver a Longer-Lasting Lithium-Oxygen Battery

Packing more energy into batteries is the key to delivering electric cars with longer range, smartphones that can last days -- and cheaper electronic products all around. Lithium-oxygen batteries represent one of the more promising paths toward that end. From a report: They could boost energy density by an order of magnitude above conventional lithium-ion batteries -- in theory, at least. In a paper published this week in Science journal, researchers at the University of Waterloo identified ways of addressing some of the major hurdles to converting that potential into commercial reality.

A critical problem has been that as a lithium-oxygen battery discharges, oxygen is converted into superoxide and then lithium peroxide, reactive compounds that corrode the battery's components over time. That, in turn, limits its recharging ability -- and any real-world utility. To get around the problem, researchers switched from a carbon cathode to one made of nickel oxide and supported by a stainless steel mesh. They also used molten salt for the electrolyte -- the part of the battery that allows positively charged ions to move between the electrodes -- and raised the battery's operating temperature to 150C. Those steps made it possible to achieve about three times the number of charging cycles as earlier lithium-oxygen efforts. The researchers also managed to increase the energy per unit of mass by more than 50 percent.

Have I seen this before?

[SuperKendall]

I have this sneaking suspicious that news about battery improvements is a circle of different press releases, such that they re-publish the same article every five years or so before moving further around the circle.

The whole stainless steel mesh thing sounds just familiar enough I'm pretty sure they gave the game away.

Oh battery scientists, you are so clever! They are probably all laughing at us from a tropical shore, drinks in hand and diesel generators happily powering a boombox.

Your phone lasts for days...

Because with a 150C battery in it, you don't dare pick it up to use it.

Oh Come On

[Bruce+Perens]

It's another basic science press release! A molten salt battery, Yet somehow it runs at 150C, so salt doesn't mean NaCl, which melts at 801 degrees centegrade. And it's corrosive and eats itself. OK, lead-acid batteries are too, but there's some significant technology to get past, and this is still just a research project. Also, I'm wondering what heating up the whole battery to 150 C to start your car will look like, and what sort of battery you will need to do that. Obviously not the same battery.

Wake me up when I can buy one off the shelf, OK?

Re:Improving energy density by an entire order...

[liquid_schwartz]

If that's the cost of 10x the range people would gladly do it. If it makes you feel better you can "only" charge it for 8 hours and get a mere 8x the range. This is a good problem to have.

Re:Improving energy density by an entire order...

[MachineShedFred]

Why would a car manufacturer keep a battery of the same size with 10x the density, knowing that charging that battery would be a problem?

They could always just make a battery pack that gives X range, and keep the charging the same for the value of X, but with a much smaller pack (less mass)

Re:Improving energy density by an entire order...

[bws111]

Well yeah, if you want to charge from empty to full overnight you would have to fast charge. But that would not usually be the case, would it? If you have 10x the energy, thus 10x the range, you could go 2500 miles on a charge. Nobody is doing that daily. So slow charge to 10% the first night, use half of that charge during the day, after the next night you are at 15%. In 20 days you will be at 100%, then you just need to keep it 'topped up'.

Re:Improving energy density by an entire order...

Or, thinking like a manufacturer, put 1/8th the amount of batteries in the vehicle.