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Nano Diamond Battery, a cleantech battery made by nanotechnology

Nano Diamond Battery or NDB isn’t just a one-person show; it is a collection of novel components working together harmoniously to generate power.

Nuclear Diamond Battey layers are being represented in this figure. The layered structure of Nuclear Diamond Battery helps the nanostructure or in other words the diamond battery to generate electricity making the device a cleantech energy device.

– The nano diamond generates and harvests electricity

 

– The printed circuit board manages the power

 

– The supercapacitor stores the generated electricity

 

– The energetic electron shield protects the user

 

– And the power bank makes the NDB more powerful.

Nano Diamond

Diamond Battery or Nuclear Diamond is presented in this figure. There are stacks of nanoscale layers present in Diamond Battery which will produce energy.

This component is the powerhouse of the Nano Diamond Battery. A place where NDB produces and harvests the electric charge.

 

The reason why nuclear diamond can produce electricity is that it is both hosts energetic electrons and a semiconductor.

 

When an energetic electron passes through a semiconductor. It generates electric charges (electricity) through a process called scattering.

 

What makes diamond unique is that because it is an excellent charge collector (near 100% efficiency). It can collect almost all of the charge generated, meaning it is incredibly efficient.

 

Also, the nano diamond has an integrated nanostructure that is unique to NDB.

 

This promotes the charge collection with minimal loss and increased power. Which is why NDB can power higher power devices like smartphones and space electronics.

Best of all, because nuclear power is a powerful and continuous source of energy. A large amount of power could be harvested from it over a long time.

Printed Circuit Board (PCB)

 

If the nano diamond is the beating heart of the Nano Diamond Battery, the PCB is its brain.

 

The PCB contains a system of amplifiers such as charge pumps and micro transistors to increase the voltage of the NDB further that expands the scope of application.

 

This increase in voltage is one of the reasons why NDB can power higher power applications that other betavoltaic devices can’t.

 

That’s not all; the PCB intelligently coordinates the electric system so that when the NDB isn’t powering anything. It stores the unused electrical charge into the supercapacitor.

f the nuclear diamond is the beating heart of the Nuclear Diamond Battery, the PCB is its brain. The PCB contains a system of amplifiers such as charge pumps and micro transistors to increase the voltage of the NDB further that expands the scope of application. This increase in voltage is one of the reasons why NDB can power higher power applications that other betavoltaic devices can’t. That’s not all; the PCB intelligently coordinates the electric system so that when the NDB isn’t powering anything, it stores the unused electrical charge into the supercapacitor. So that when you need that extra power, NDB is ready to serve your needs. Additionally, the components of the PCB are specially handpicked so that only components that can comfortably last longer than the lifetime of the user is selected.
So that when you need that extra power, NDB is ready to serve your needs.

 

Additionally, the components of the PCB are specially handpicked so that only components that can comfortably last longer than the lifetime of the user is selected.

Supercapacitor

The Supercapacitor component of Nuclear Diamond Battery is represented in this figure. The Anode and Cathods of this supercapacitor are made of different layers that include ACNO and Graphene.

Another reason why Nano Diamond Battery has such a wide range of applications that NDB has charge storage.

 

If you ever need to use a lot of charge in one go, even beyond what the nano diamond is producing. The supercapacitor is there to make that possible.

 

A supercapacitor is a device that is a half-way hut between a traditional battery and a capacitor. It stores charge like a battery but also charge and recharge as fast as a capacitor.

What makes NDB’s supercapacitor special is the use of graphene-based materials.

 

Graphene is a material that won the Nobel Prize in 2010 for its discovery. It is an atomically thin sheet of carbon that has extraordinary properties. It is one of the strongest materials on the planet, as well as being extremely conductive.

 

Most importantly for supercapacitors, it could host a substantial amount of charge, so when you need to use the NDB, it has a large reserve of charge for you to draw electricity from.

Diamond energetic electron shield

 

It is all good and well that NDB is powerful and has a wide range of applications, but what about its safety? The fact is, NDB is not only safe but goes above and beyond what is required.

 

In-depth information on safety could be found in the safety section.

 

The key to this safety is the diamond energetic electric shield.

 

NDB is a device that converts energetic electron energy into electricity. The reason why this is possible is that the diamond can interact with an energetic electron and absorb it.

 

By turning this concept around if a diamond is used as a shield, it absorbs energetic electrons extremely well and protects the user.

 

Not only that, the diamond energetic electron shield absorbs all forms of energetic electrons coming out from the NDB both primary and secondary safeguarding the user from all types of energetic electrons.

 

NDB goes beyond this by having not just enough diamond thickness but a substantially thicker shield to ensure user safety. What’s even better, diamond is the hardest material on the planet, so NDB is exceptionally safe and tamperproof.

Power bank

 

Another reason why NDB is useful in a wide range of applications is that it can be connected in series and parallel to increase its power.

 

So if you have several NDBs, you could then join them together in a power bank to make them more powerful.

 

By doing so, NDB that on its own can power a smartphone could be connected to generate enough power to drive an electric vehicle, for example.