CONFIRMED! The ALL NEW NBD’s Nuclear Diamond Battery FINALLY Hits The Market!
#battery #electricars #batterybreakthrough
Five years ago, tycoon Masayoshi Son predicted that by 2035 there would be one trillion Internet of Things devices worldwide. And now, industry professionals expect that 274,000,000 batteries used by IoT devices will need to be replaced daily, proving that he was right.
This vision of a linked future didn’t seem realistic from a labor and resource standpoint unless engineers could develop far longer-lasting power sources. And we could really use that right now. So, has this technology been developed? And if so, what does this mean for all of us?
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Thank You For Watching Our Video; The ALL NEW NBD’s Nuclear Diamond Battery FINALLY Hits The Market!
The potential of technological advancements is capped by the resources available to power them. And it’s important to remember that the clock starts ticking when we turn on a gadget because the battery immediately begins to degrade and lose capacity. Every day is a struggle to remember to charge the battery before using it, and we all fall asleep without plugging it in at some point.
Not very long ago, the concept of an eternal battery, one that would live for thousands of years without being replaced, was still a science fiction. But hasn’t a lot of science fiction come to reality already? This is actually true because most people now carry miniaturized computers in their pockets, which are smartphones.
Now, there are many promising new battery technologies that are currently in the research and development stage. However, the most intriguing is nuclear or isotopic batteries. These batteries could store energy for decades, centuries, or millennia before needing to be recharged, and they could power themselves using radiation.
And with these batteries, future batteries may not only outlive our smartphones but may never require charging at all.
What’s even crazier than the idea of nuclear batteries is that it’s possible that the future versions of the batteries we use in our phones and cars will be made from artificial nanodiamonds.
NDD nano diamond batteries are among the most advanced businesses developing this technology. And it would be an understatement to suggest that the technology behind micro diamond batteries is simple.
So, basically, chemical vapor deposition is used to extract radioactive elements from nuclear waste and trap them in diamonds. The diamond then acts as a transducer to convert the radiation into electricity.
It’s kind of like solar panels. In contrast to solar power, NDB uses radiation from radioactive materials to create electricity. However, these batteries can survive for more than 280 years, making them superior to solar cells.
Using this technology, smartphones would look very different. With no need for charging ports, manufacturers might create phones impervious to water and dirt and much more long-lasting than in the past.
Now, because of the improvements in synthetic diamond manufacture, it is not out of the question that our mobile devices may one day be coated with diamonds, making them almost indestructible.
It’s also possible that one day these nuclear batteries could power not only mobile devices but all of the electrical equipment we use. Everything from wristwatches and headphones to cars, drones, and robotics.
Now, these are lofty goals, but they’re goals worth having. Could NDB’s predictions become true?
Let’s get started with the technical details. You see, in order to construct this battery, NDB uses layers of Nano diamonds paneled at exceedingly small sizes.
To put this into perspective, 1 nano-meter equals 1 billionth of a meter. And as a result of their superior heat-conducting properties, diamonds are preferable for use in electronic applications. They are the best known natural heat conductors, and they are three to four times as effective as copper or silver.
Chemical vapor deposition is used to create these microscopic diamonds in a laboratory. Carbon and DE crystallization in a substantial material can be formed by heating the gasses involved to very high temperatures.
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