Atomic battery based on carbon-14 buy price Russian principle work with your own hands for your

Atomic battery based on carbon-14 a lifespan of over 100 years.

 

 

Developed nuclear battery based on carbon-14 has several advantages compared with nuclear batteries based on other radioactive isotopes, such as environmental friendliness, low cost and long service life. These benefits are achieved, first, through the use of nuclear battery-powered carbon-14 as a radioactive source. The half-life of this element is 5700 years, and thus, unlike, for example, Ni-63, carbon-14 is non-toxic and has a low cost.

Technology is in the process of development!

 

The atomic battery principle of operation

The advantages of nuclear batteries based on carbon-14

 


Nuclear battery:

Atomic battery – this technology, which is based on the idea of transforming the energy that is radiated by a radioactive source into electrical energy. A simple nuclear battery consists of a source of radiation and separated from it by a dielectric film of the collector. The decay of the radioactive source emits beta radiation, so that it is positively charged, and the collector is negative and between them there is a potential difference.

On the creation of power sources that would work due to the energy of radioactive isotopes, scientists are now working around the world. Samples of nuclear batteries exist in Russia, and the United States and in other countries. As radioactive sources used tritium, Ni-63 and carbon-14.

Atomic battery based on carbon-14 has a number of advantages compared with nuclear batteries based on other radioactive isotopes, such as environmental friendliness, low cost and long service life.

These benefits are achieved, first, through the use of nuclear battery-powered carbon-14 as a radioactive source. The half-life of this element is 5700 years, and thus, unlike, for example, Ni-63, carbon-14 is non-toxic and has a low cost.

The second difference nuclear batteries based on carbon-14 is that as a “substrate” under a radioactive element uses a fundamentally new structure – a porous silicon carbide to the heterostructure. Technology of production of carbide films by building on a finished silicon substrate “method of endotoxin” to reduce the cost of the “substrate” 100 times, making a nuclear battery is cheap.

An indisputable advantage of the silicon carbide heterostructures is also its resistance to radiation. When radiation of the isotope remains practically unchanged, which allows us to say that such nuclear battery will operate for an unlimited period of time.

Carbide of silicon is also the semiconductor material. It is chemically more resistant, capable of operating at temperatures up to 350 degrees. Silicon sensors for temperatures up to 200. Silicon carbide works at a temperature of 150 degrees above. It is 10 times of radiation more passive and more resistant than silicon.

 

The advantages of nuclear batteries based on carbon-14:

– carbon-14 non-toxic,

low cost nuclear batteries compared to other nuclear batteries based on other radioactive sources

– long service life – service life of over 100 years

security. Beta radiation has a low penetrating power and are stopped by a shell of atomic batteries

– ability to work in extreme conditions – during extreme low and high temperatures.

 

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