What are they and why are they a big deal?
Smartphone battery technology is pretty good these days. But if there’s one thing gadget lovers will never be able to get enough of it’s the promise of better battery life. Wouldn’t it be great if our handsets lasted two or three full days of heavy use with just a single charge? What about a whole week? With graphene batteries, this might not be such a pipe dream.
Graphene batteries aren’t powering smartphones and other gadgets just yet, but the technology is progressing. In the future, graphene could be the material that replaces the lithium-ion batteries that the technology industry has become so reliant on for decades.
We’ve written about graphene because It seems like one of those technologies with heaps of promise but that’s perpetually just around the corner. While we’re still a ways away from the commercialization of graphene technologies, including batteries, it’s still something well worth keeping on your radar.
Here’s everything you need to know about graphene batteries.
What is a graphene battery?
Before delving into the graphene battery, it’s worth quickly recapping what graphene is and how it works.
Briefly, graphene is a composition of carbon atoms tightly bound in a hexagonal or honeycomb-like structure. What makes graphene so unique is that this structure is just one atomic layer thick, essentially making a graphene sheet two dimensional. This 2D structure produces very interesting properties, including excellent electrical and thermal conductivity, high flexibility, high strength, and low weight. What we’re particularly interested in is the electrical and heat conductivity, which is actually superior to copper — the most conductive metal element.
Supercapacitors enable batteries that last for much longer and charge almost instantly
When it comes to batteries, graphene’s capabilities can be used in a number of ways. The ideal use of graphene as a battery is as a “supercapacitor.” Supercapacitors store current just like a traditional battery but can charge and discharge incredibly quickly.
The unsolved trick with graphene is how to economically mass manufacture the super-thin sheets for use in batteries and other technologies. Production costs are prohibitively high at the moment, but research is helping to make graphene batteries are reality.
Back in 2017, Samsung announced a breakthrough with its “graphene ball.” Although we haven’t heard anything else since. More recently it emerged that Telsa is also reportedly interested in the technology for automotive batteries.
Graphene vs lithium-ion
Just like lithium-ion (Li-ion) batteries, graphene cells use two conductive plates coated in a porous material and immersed in an electrolyte solution. But while their internal make-up is quite similar, the two batteries offer different characteristics.
Graphene offers higher electrical conductivity than lithium-ion batteries. This allows for faster-charging cells that are able to deliver very high currents as well. This is particularly useful for car batteries, for example, or fast device-to-device charging. High heat conductance also means that batteries run cooler, prolonging their lifespan even in cramped cases like a smartphone.
Graphene batteries are also lighter and slimmer than today’s lithium-ion cells. This means smaller, thinner devices or larger capacities without requiring extra room. Not only that, but graphene allows for much higher capacities. Lithium-ion stores up to 180Wh of energy per kilogram while graphene can store up to 1,000Wh per kilogram.
Finally, graphene is safer. While lithium-ion batteries have a very good safety record, there have been a few major incidents involving faulty products. Overheating, overcharging, and puncturing can cause runaway chemical imbalances in li-ion batteries that result in fire. Graphene is much more stable, flexible, and stronger, and is more resilient to such issues.
You don’t have to have one or the other though. Li-ion batteries can use graphene to enhance cathode conductor performance. These are known as graphene-metal oxide hybrids. Hybrid batteries result in lower weight, faster charge times, greater storage capacity, and a longer lifespan than today’s batteries. The first consumer-grade graphene batteries are likely to be hybrids.
What graphene batteries mean for smartphones
Future smartphones packing graphene power cells would exhibit the benefits outlined above. Handsets would charge even faster (check out the results when we tested a graphene powerbank in the video at the top of this article), battery life would easily last a day or two, if not longer, and devices could be thinner and lighter.
The move to graphene could offer 60% or more capacity compared to the same sized lithium-ion battery. Combined with better heat dissipation, cooler batteries will extend device lifespans too. You won’t need to pay for expensive battery replacements after a couple of years to keep your old devices performing in top condition.
Graphene batteries would allow smartphones to be thinner or offer more battery capacity while keeping their current proportions. There are also interesting implications for fast device-to-device charging. With batteries able to support very high currents and blazing fast recharge and discharge times, gadgets could charge each other up at super-fast speeds.
Although graphene battery technology remains some years away, it’s a tantalizing prospect for future smartphones, gadgets, electric vehicles, and much more. It’s one to keep an eye on.
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