graphene supercapacitor based battery. charges in seconds... - energy storage companies

I have put this information up before, but I have not disclosed to anyone that this is a graphene super capacitor.
After repeated trials, I came up with a great way to make graphene in large quantities, which I can use to film and they have been rolled into capacitors.
I spent a lot of money on having a manufacturer that makes capacitors with my graphene film.
The capacitance in the battery is about 3500F and the rated power is 2. 2 to 3. 8 volts.
Record the structure of the battery itself throughout the steps.
Please support this on my Kickstarter so I can get the money and produce and sell graphene capacitors on the market.
They are amazing!
Such a huge potential for energy storage is in a small package.
Not to mention, the battery charges in seconds!
What you see in the picture is the beginning of the capacitor and the circuit board.
The purpose of this circuit is to reduce 2 effectively. 2-3.
8 volts from capacitor to 1.
5 V can be seen from AA, C or D batteries.
There is also a voltage monitor IC on the board because the capacitor may be damaged if the voltage drops below 2. 2.
As long as the voltage above 2 is detected, the monitor can basically make the regulator work.
When everything is manually welded to the board, I cut it down and polished it into a circle that fits inside the battery tube.
We have a capacitor inside the battery tube and its lead is coming out.
In the middle, you will see the finished circuit board, reduce the size and be ready to connect to the capacitor.
Another problem is the capacitor. It needs 3.
8 V charge it but you can't charge it through the top and bottom as this is and-
Battery terminal 1 being launched. 5 volts.
So, for the top of the battery, the shell is base metal.
The bare metal is attached to another regulator that drops the 5 V voltage to 3 v.
8, then lead the capacitor.
The charger itself is connected to the negative battery terminal, and then there are two connections that touch the side of the battery, allowing the capacitor to charge.
Another benefit of using a capacitor as a battery is that it charges in less than 30 seconds!
Next to standard alkaline batteries.
I have built a total of 4 in a few weeks, two of which power the toys of one of my daughters.
It lasts as long as the alkaline you see next to it, but charges in 30 seconds.
Please support my Kickstarter campaign so I can get the battery and at least push the capacitor to the world so everyone can get the graphene capacitor.
Their possibilities are endless!
This is not an advertisement anyway.
It gives an overall idea of its structure and the fact that graphene capacitors exist!