Should We Use Simple Algorithms, 3-D Printing, and Fractal Schematics for Our Batteries?

The ability to charge batteries very quickly, and allow them to hold a charge for a long time is much about structure as it is about the types of materials used. It would seem that it is very hard to manufacture certain types of materials to use inside Best Business Ideas Not Yet Implemented of batteries without using up all the capacity and volume available inside the unit. However, it is come to my attention that 3-D printing and the use of fractal designs and mathematics may be the solution to this problem. Let me explain if I might.
Can we use various folding algorithms and 3-D printing to develop these fractal schematics for the interior of our batteries? If so, it appears to me that we could increase the capacity of the battery to hold 40 to 60% more energy, and also allow it to charge extremely fast. Successful Business Meaning Not only that, but by using 3-D printing, we could manufacture batteries all over the world, and not have to ship them. This is a big problem for the distribution and transportation industry. Batteries which are charged, and then shipped, also create a fire hazard.
These batteries are also heavy, and therefore, more difficult to get them all the way around the world into the places where they are most needed as a reasonable cost, especially in places where the power is not reliable, or sufficient to run 24 hours per day. The people that live in these regions of the world need reliable battery power, but the current state of the technology just isn’t good enough yet, perhaps this new strategy might solve that problem as well. Infinitely small structures with elaborate designs are very difficult to manufacture, however using 3-D printers that may not be so.
Further, we may be able to go back to battery building materials, which have been previously proven to be less efficient than current ion-lithium batteries by merely changing the structure with more elaborate designs, and manufactured at a micro scale. Imagine a start-up company that comes up with the perfect design for the interior of the battery, licenses it all over the world, and batteries are made on site in every country?
Imagine if those batteries were 10 times as efficient as they are today? Imagine if they could be built at nearly 1/5 the cost? Just think if they could be fully charged in under 3 minutes? That’s what I’m talking about here, so I hope you will please consider all this and think on it.

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