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Theoretical Physics & Electronics

NDB > Theoretical Physics & Electronics

Theoretical Values Of Carbon-14 Diamond

Nano Diamond Battery, an Emerging Technology With Great Potential

Nano Diamond Battery uses carbon-14 nuclear diamond. Therefore it is useful to know its true potential. Thus values that it could attain with development.


The table below lists some of the theoretical values of an ideal carbon-14 nano diamond that has 100% efficiency. Most notably carbon-14 nano diamond generates quite a substantial amount of charge (342,360 mAh).

To put this value into perspective. A typical smartphone battery (a traditional, Li-ion battery) has a charge capacity of 3,000 mAh. This can power a phone over an entire day. However, 1 kg of carbon-14 diamond can produce over 114 times that in 1 hour.

Nano Diamond Battery has one significant advantage over other batteries.

It can have a near 100% efficiency because of the wide and indirect bandgap of the diamond. This gives the electric charge a longer lifetime for it to be collected.

Features of 1 kg, carbon-14 nuclear diamond

Specific activity

\01.645\times 10^{14}$ Bq/kg

Mean number of electrons (\0N_{e})

\03,610.29$ electrons per decay

Total number of electrons generated (\0N_{total})

\05.939\times 10^{17}$ electrons kg/s

Current generated (\0I_{C-14})

\00.0951$ A

Electric charge generated (\0q_{C-14})

\0342,360$ mAh

Density (\rho_{C-14})

\04,098.35$ kg/m^{3}

Volume (\0V_{C-14})

\0244$ /cm^{3}

Length of cube (\L_{C-14})

\06.249$ cm