Electric car maker Tesla (NASDAQ:TSLA) is a household name at this point, especially due to the explosion of Tesla Model 3s on a worldwide scale.
In the resource sector, the company has generated interest with its Model 3 sedan — a US$40,000 car — that Tesla believes will help make electric vehicles (EVs) available to the masses.
That’s definitely exciting news for car enthusiasts, but it’s also good news for critical metals investors. Why? Because Tesla’s electric vehicles run on lithium-ion batteries, which require lithium, graphite and cobalt. Demand for those metals is expected to increase as Tesla sells more of its electric vehicles.
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Give me my free report!But some investors are still wondering whether Tesla’s lithium-ion batteries may eventually include another interesting material. That material is graphene, a single layer of crystalline allotrope within carbon. Ultimately, graphene has a reputation for being able to improve an extremely wide variety of products.
For example, graphene technology has the potential to be leveraged in lithium-batteries as a graphene electrode. A battery is composed of a cathode and anode, and the graphite anode (the negative charging electrode of a battery) is deployed.
Although there has been some challenges in the reliability within these electrode materials, reduced graphene oxide — a solution of water and graphene — has been shown to display promising attributes within lithium-ion batteries.
In addition, when a metal oxide is attached onto graphene, the energy storage functions are markedly improved. Metal oxides are commonly used in lighting, magnets and superconductors, among other applications.
Is it a possibility? Read on to find out what could be in store from Tesla.
Graphene battery for Tesla: Could it happen?
Widely regarded as the “wonder material” of the 21st century, graphene has an impressive list of characteristics: it’s a better electricity conductor than copper, impermeable to gases, 200 times stronger than steel (but six times lighter) and almost completely transparent. Further, its properties can be altered when chemical components are added to its surface.
Those qualities give graphene seemingly endless applications across a number of device, though most still aren’t commercially available. But could graphene really be used to make better lithium-ion batteries? And if so, is that something Tesla is pursuing? The short answer is “probably not,” but there’s more to the story than that.
Here’s a brief overview of what you should know about Tesla and graphene:
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Give me my free report!- 500-mile graphene battery: China’s Xinhua News Agency is largely responsible for rumors that Tesla may be making a graphene battery. Why? Back in 2014, the news outlet published an article stating that Tesla was working on a graphene battery that could nearly double the range of the Model S to 500 miles.
- Tesla CEO Elon Musk chimes in: Xinhua’s story was given credence because around the same time it came out because Musk said that he thought it would be possible to create an electric vehicle with a range of 500 miles. “In fact we could do it quite soon, but it would increase the price,” he said. However, he didn’t specify that graphene would be used to create such a vehicle.
- Market watchers pile on: Together, the article and comment from Musk understandably created an uproar in the graphene community — click here, here or here to get a sense of some of the commentary on the topic. Notably, market watchers pointed out that, while a graphene battery might be great for mileage, the cost of graphene could make it prohibitively expensive.
- Excitement subsides: With no new reports on Tesla’s graphene plans, excitement about the 500-mile battery calmed down.
- 330-mile peak: Sources show that Tesla batteries, produced by Panasonic (TSE:6752), have a maximum 330-mile range among its top-line models. The current battery electrodes are lithium-ion based.
- Renewing activity again: In May 2019, Tesla announced that it acquired Maxwell Technologies. Notably, Maxwell offers fast charging capabilities through its supercapacitors. Graphene supercapacitors have the ability to store incredible amounts of energy compared to regular capacitors.
- One million mile battery on horizon: Then, Musk reported that Tesla will be powering electric cars for 1 million miles across the lifetime of its li-ion batteries. In a study published in September 2019 by Dalhousie University, researchers suggested that a lithium battery composed of nickel manganese cobalt oxide (NMC) as its cathode and using artificial graphite, a structure of graphene, had significant viability. In the paper, physicist Jeff Dahn revealed the battery composite. This is especially rare, since researchers in rechargeable batteries and the graphene industry typically safeguard these results.
Graphene battery for Tesla: Current challenges
Unsurprisingly, there are a number of hurdles to the commercialization of using graphite materials in batteries. One, there are presently current density challenges, which impact the safety and strength of lithium batteries in EVs. Unresolved issues surrounding conductivity that ultimately degrade the overall battery capacity still remain as well.
Graphene battery for Tesla: The competition
That’s where the situation stands today. While a graphene battery from Tesla is certainly a compelling idea, as of yet there’s been no confirmation that the company actually has one in the works.
That said, there are other companies interested in the idea of graphene batteries that might someday power EVs. For example, major tech company Samsung (KRX:005930) is working on a graphene ball battery that could reduce charging times from 45 minutes to 12 minutes. Of course, investors are clamoring to know how soon this new development could be applied to the auto sector.
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Give me my free report!There’s also a startup from Spain called Earthdas that has developed a graphene battery that charges motorcycles and electric bikes in only five minutes. Again, people speculate that it’s only a matter of time before it can be used for other vehicles.
In a further sign of development, Sila Nanotechnologies is developing a battery that bypasses the use of a graphite anode and instead replaces it with silicon. These silicon anode materials, in turn, have a charge rate that surpasses graphite cells. The company states that silicon anodes have the ability to absorb lithium ions at a faster rate than graphite due to the fact that they have a higher energy density.
In line with this, Enevate is a firm that is developing silicon-based lithium batteries, which it claims have superior technology compared to graphene materials.
“We can sustain a charge rate 10 times as fast as a conventional graphite cell,” Robert A. Rango, CEO of Enevate, told CNBC.
As a graphite anode surface area is prone to cracking, this negatively impacts its ability to store energy. Silicon, on the other hand, can adapt to a large surface area.
Overall, it would appear that Tesla is not the final answer on the graphene battery. But graphene is considered the “wonder material” of the 21st century; if Tesla wants to keep up with the competition, it’s possible graphene batteries may be a part of the company’s future.
Do you think the graphene battery revolution is coming? Tell us in the comments.
This is an updated version of an article first published by the Investing News Network in 2016.
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Securities Disclosure: I, Dorothy Neufeld, hold no direct investment interest in any company mentioned in this article.