It’s About The Ions!
It is exceedingly difficult to get out of our dependency on lithium. Although it’s quite rare in the universe, it’s one of the most common and stable battery materials we can use. Right now, lithium-ion is failing us because we’ve practically reached the limits of what it can provide for high-power devices. We can either make the systems running on these devices (including the chip sets) more efficient or find a new way to power them that could support a longer life. There’s already a ton of focus in energy efficiency by SoC and chip set manufacturers. What we need now is a little cooperation from the folks making these devices’ batteries. There’s a lot of hype revolving around lithium-sulfur batteries because of their high energy density. However, this component is liquid. Is it wise to store a liquid in high pressure next to a bunch of electronics? The other caveat in this technology is that lithium-sulfur batteries require an extensive amount of monitoring, which might involve extra hardware on the platforms powered by these cells. So, if this technology becomes viable, expect to see fatter portable devices like we did back in the early 2000s. Then there’s the pipe dream of using lithium-oxygen batteries to power everything from cars to phones. If this technology flies in the next five years, we might even be able to power full-blown desktop computers for a few hours. Smartphones would last about five to seven days without charging. The caveat here is in stability. Lithium-oxygen (better known as Li-air) has potential contamination issues at the cathode. Despite all of the advantages (such as an energy density comparable to petrol), its disadvantages have to be worked out for li-air to become a commercially-available battery. Current experimentation is limited to the laboratory and prototypes are being developed only for powering vehicles.
Ditching Lithium
What if we were to say goodbye to lithium entirely? There are cheaper, albeit less potent, alternatives to our lithium-based friends that could provide a much better energy base. What about sodium-air batteries? Paper after paper is showing that the electrolyte breaks down after charging them about eight times. That’s not good, is it? However, that’s practically the same issue with many other metal-air mixtures. Does this mean that the electronics market is doomed to stick to lithium-ion? I don’t think so. Although battery innovation has been sluggish as of late, it’s still an ongoing trial-and-error process that will eventually yield results. There’s a lot of potential in each technology, if only we could move past their caveats. What are your thoughts? Please leave a comment below if you feel you could add something to this!