Like most Americans, you probably use battery-powered devices every day. Your earbuds, your electric toothbrush, and even your car all rely on battery technology to operate. You rely on battery power constantly — but how much do you really know about it?
You may not realize that there have been some exciting new developments in battery technology. The battery technology future looks cleaner and more sustainable than ever before, thanks to scientific breakthroughs.
What is the new battery technology, and who has the best battery technology? This article will take a look at some of the highlights of battery technology. It will also explain how you can make the most of the batteries you already have.
4 New Advancements in Battery Technology in 2022
The latest battery technology is focused on creating safer batteries that can be reused, instead of being tossed into landfills. That's less environmental impact than traditional lithium-based batteries.
Cobalt is becoming less popular, and there are a number of exciting new rechargeable options, like the lithium-ion cell battery. Non-toxic batteries are a reality, and scientists are finding ways to get artificial intelligence involved in crafting sustainable battery technologies.
Many of the new advances are taking place as joint ventures between scientists in different fields, like artificial intelligence, chemistry, and even mining.
Here're four of the most important new developments in the field of battery technology.
Flow Batteries Promise Nontoxic Energy Storage Technology
Conventional batteries can be problematic. They contain heavy metals like nickel, cadmium, and mercury. These toxic metals can leach into the soil in landfills, causing environmental damage. They also contain flammable materials.
That’s why flow batteries are one of the most exciting new developments in battery technology.
Flow batteries are rechargeable batteries, which generate energy through electrolyte interfaces and the chemical crossover that occurs when electrolytes flow through electrochemical cells. They take advantage of anionic activity and can operate using various different chemical compounds stored in tanks.
Unlike conventional batteries, the best new flow batteries don’t contain toxic materials. They are environmentally friendly. The American Chemical Society also notes that they are easy to scale and that they allow for long-term energy storage.
Recently, a team of researchers at Harvard University reported that they had created a flow battery that relies on two non-toxic chemical compounds to produce and store energy. The new flow battery has a large energy capacity and can provide a long-lasting source of power. This means that it’s likely to have a greater volumetric energy density and a relatively low price per energy capacity.
With time, flow batteries could become a non-toxic, reliable, and affordable source of battery power. As people use more and more battery power, it’s increasingly important to have a source of power that does not pollute the environment. That’s why many scientists are excited about the potential of flow batteries.
New Fitness Wearable Packs More Battery Life with Anode Material
Fitness wearables are one of the most popular new devices on the market. Consumers love the ability to track their steps, monitor their heart rate, and even keep track of their sleep patterns.
But most fitness wearables have limited battery life and need to be charged frequently. This can be a problem for users who want to use their devices at night as well as during the day.
Fortunately, anode battery technology makes it possible to build tiny batteries that can operate continuously for up to five days without being charged.
Anode-powered trackers can do everything that a conventional fitness tracker can, so that users will be able to monitor their pulse, track their fitness goals, and even monitor their skin temperature.
It’s also likely that the technology will have applications beyond the fitness tracker.
AI May Help Dig Up Materials for Rechargeable Battery
Scientists say they are harnessing artificial intelligence to help build better rechargeable batteries.
Artificial intelligence algorithms can analyze images of rechargeable batteries to assess their strengths and weaknesses. AI has the ability to study batteries at the atomic level to identify even the smallest weaknesses.
Rechargeable batteries have been around for decades, but they have not reached their optimum potential yet. Scientists are especially interested in learning more about the potential of lithium iron phosphate batteries, which don’t rely on hard-to-obtain metals like cobalt or nickel.
AI also has the ability to study an enormous data set and analyze patterns. AI can quickly comb through reams of data to find the most important information. Using AI to study rechargeable batteries will open up new possibilities for the technology. It could revolutionize the industries that depend on electric batteries — like the electric car industry, for example.
Lithium-ion Batteries Continues To Be Increasingly Popular
Lithium-ion batteries are still extremely popular. In spite of advances in clean, rechargeable battery technology, much of the world continues to operate on familiar cathode battery technology.
That means that your smartphone, tablet, and laptop probably still operate on lithium-ion batteries. Your camera, earbuds, and other electronic devices also probably depend on lithium-ion batteries to power them.
The question is, how can you get the best possible use out of your existing batteries? Beyond that, how can you reduce the carbon footprint involved in battery use?
Most battery users experience frustration when they need to charge their devices while they are out and about. Many people rely on their devices for work, entertainment, and/or socializing.
It can be frustrating to have your devices run out of battery power while you’re far from a wall outlet, as many people can attest to.
That’s why an increasing number of consumers are turning to portable chargers, which can provide a fast, full charge for all of their devices. Portable batteries are making a difference for students and remote workers.
Portable battery chargers can quickly charge laptops, smartphones, and other personal devices. They carry enough power to fully charge a laptop twice or to fully charge a smartphone six times. They can also power up multiple devices at once. That’s really getting the most out of your battery.
Where To Find Portable Chargers With Outstanding Battery Technology
To many people, portable battery chargers sound almost too good to be true.
The truth is, this technology is already well established and affordable. Omnicharge’s portable battery chargers are efficient, easy to use, and affordable for almost any budget. They come in a range of different styles and sizes; so, it’s easy to find the one that works for your needs.
Ready to learn more about Omnicharge’s portable chargers? Visit us today to start getting more out of your battery-powered devices, right away.