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Smartphone Battery Technology: What Will the Next 10 Years Bring? - Texasnewstoday.com

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We are all suffering from anxiety about the battery level of our smartphones. From the horrifying 15% warning of a weekend festive day to the fear of running out of juice until the map navigates the labyrinthine backstreets to reach your destination before drying your phone, we’re all scared. Can be sympathized with.

So it’s not surprising that battery life is one of the most important features for consumers. The problem is that while other areas of smartphone technology (larger, higher resolution screens, more powerful internal organs, pixel-packed cameras) are improving at a blazing pace, battery technology lags far behind. .. The old and small Nokia 8210 feels like a step backwards when it lasts a few days more comfortably than a modern pocketable computer. But there is hope.

Battery technology is significantly improved over the nickel batteries used in the 1980s. Over the next decade, the switch to lithium-ion / poly batteries allowed us to pack more power into smaller spaces, helping to kick off the smartphone revolution. Today, manufacturers are already using innovative solutions to deliver more power, and there is no day without news that new potentially innovative battery technologies have come to the news.

We can’t cover all the potential advances in battery technology, but we’ve put together some outstanding ones. You can get a glimpse of the future of smartphones that can be used for a week …

Brute force

(Image credit: Future)

In the near future, manufacturers will be able to focus on packing larger batteries into their phones (in fact, they already do). This isn’t exactly the most elegant and exciting solution, but the results can’t be challenged. The larger the battery, the longer the cell phone will last.

Some companies are taking a slightly different route, using multiple batteries on a single device. Apple, Huawei, and OnePlus all have mobile phones that use dual-cell batteries. This not only gives you more flexibility by keeping everything in your handset in the position of the Tetris block, but it also helps with charging.

Is OnePlus 9For example, it has a dual-cell battery with a total capacity of 4,500 mAh. It’s not the largest smartphone battery in the world, but its split design allows it to charge incredibly quickly at 65W. This is because two small batteries can charge faster than one cell.

Improved storage period

Have you ever noticed that your phone’s battery life deteriorates over time? This is because most smartphones lose about 20% of their original battery capacity within a year. In other words, a 100% charge of an aged handset will last significantly longer than a full charge when it is new.

Thankfully, there are some promising new technologies from many scientists. Japan Advanced Institute of Science and TechnologyThis allows the battery to maintain an impressive capacity of 95% of its capacity for more than 5 years. The solution is- * Deep Breath * – Bis-Imino-Acenaphthenquinone-Parafenylene, or BP for short, a fashionable new binder material for negative terminals. This tongue twister allows the battery to maintain approximately 95% of its original capacity with more than 1,700 recharges, but current technology allows it to be recharged 500 times.

Endlessly

Well, gradual improvements are enough, but let’s start with a new type of battery that can be used for a few days in future smartphones and bite into some plump futuristic developments.

Developed by researchers in. Monash UniversityThe new lithium-sulfur battery not only has less environmental impact than current lithium-ion products, but also provides a 5-day battery for smartphones and may lead to lower manufacturing costs to boot. .. Fans of electric vehicles will also be delighted to hear that the same technology can drive 620 miles on a single charge. Anxiety about range is shit.

Other company, Priet batteryGoes one step further and develops batteries that not only last significantly longer, but also charge very fast. The battery solution uses a clever copper foam substrate that increases the internal surface area by up to 60 times the surface area of ​​a traditional battery. This means that the output and energy density of the Prieto foam battery can be significantly increased.

One example that the company mentions is a smartphone battery that lasts for 10 hours and takes only 5 minutes to charge. With a little more size and thickness, you have the potential to create the ultimate smartphone battery.

Supercapacitor

Another exciting area of ​​battery technology is supercapacitors. In reality, it stores potential energy electrostatically rather than chemically, not the battery itself. This allows charging to be delivered faster, much faster than a real battery. We are talking about charging up to 1,000 times faster. This basically means that any device can be charged almost instantly. You can use it immediately by inserting or removing the plug.

However, the downside is the density of energy storage. It is stored at about a quarter the weight of a regular battery. However, if you can charge your phone instantly, this may not be as big a problem as you initially thought. With the widespread adoption of compatible chargers, in theory you can charge in just a few seconds in a coffee shop or office, and in just a few seconds before you feel happy. Unless you’re in the middle of the wilderness, this almost eliminates range anxiety.

Given the size limits in the near future, a hybrid solution that combines the speed of supercapacitors with the energy storage capacity of regular batteries looks like an ideal compromise.

Graphene: Holy Grail

Without graphene, which is considered the ultimate material for many applications, we cannot talk about future battery technology.

Graphene is made up of a tightly bonded carbon atom composition with a honeycomb-like structure. With only one atomic layer thick, it is immeasurable. These graphene sheets are packed with useful properties such as excellent electrical and thermal conductivity, high strength, flexibility and light weight.

In conclusion, graphene cells can be charged much faster than regular lithium-ion batteries, have a much larger capacity, and are all housed in a much thinner and lighter package. The latter is especially important. This is because it means that you can pack much more power into the same space as your existing smartphone without thickening your existing smartphone. Adding superior thermal performance to this will allow graphene batteries to operate at significantly lower temperatures, improving life and safety.

The problem, of course, is the fact that we’ve heard about the miraculous properties of graphene for years, but haven’t penetrated mainstream applications yet. This is because the manufacturing costs are ridiculously high for a given yield, but we are optimistic that this will continue to improve over time.

For now, I’m grateful for the fact that the latest smartphones last a day and can be charged in less than an hour. Can you look back on this sentence a few years later and laugh at your sweetness? We certainly hope so.

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Smartphone Battery Technology: What Will the Next 10 Years Bring? - Texasnewstoday.com
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