Silicon Solar Cell
A p-type cell usually dopes its silicon wafer with boron, which has one less electron than silicon (making the cell positively charged). An n-type cell is doped with phosphorus, which has one more electron than silicon (making the cell negatively charged).Jul 2, 2018
Is silicon the hero or more like, boron and posphorus ?
Wink ( silicon solar panels also require magnetics to assist manipulate electrons )
Sun emits solar radiation
Gamma, Alpha, Beta
Beta = ELECTRONS = Direct Electrical Energy
No conversion
Graphite / Carbon accepts direct beta absorbtion.
Carbon 14 can be enriched by,
0.156 Megaelectronvolt
Which translates to,
24 MWh
Once enriched beta emissions can be contained with various shielding
Aluminum can absorb the beta electrons
Aluminum wire was once used as electrical wiring.
Though copper is now the mainstay... it would be interesting to see another
study performed enriching carbon 14 using lasers.
Lasers squueze ( light electrons )into a dense format.
In which ( accelerates ) the doping or beta energy enrichment.
Seems my former post is missing an important - search link
which reveals a British Study proving how carbon 14 can be ( enriched ) with
beta electrons. ( odd ) i can't seem to find this important research paper )
taken down ?
What this means to me ?
Simply put.... how successful are the uranium jr's in Saskatchewan ?
Not very.... lots of uranium explorers but very few discoveries.
Graphite is associated to Lead.
Decayed Uranium = Lead
Which begs,
How did Uranium form or Carbon 14 ?
My theory is... Direct solar radiation with a weak magnetic field.
Allowing very strong gamma, alpha, beta rays to enter and heavier soft metals
such as lead absorbing these 3 radiants.
Recap
British research paper used laser light to quickly enrich carbon 14.
Freznel lenses act as a laser ( managing photons of light ) into a condensed zone
Hence - mega electron power able to burn masses instantly ( cheap laser )
Cheap, Green, source of power.
Batteries are costly to produce, many metals, components.
vs
Same with solar panels with silicon limitation ( 30% effcicirnt )
vs
Graphite accepts ( direct beta electrons ) electrons = electrcity
Sun's beta rays could be managed via freznel lenses
Massive amounts of beta electrons enriching graphite / carbon 14
strategic location that have sunshine majority of year
= Engineering Safe Beta Storage / Flow of Electrons
Since Carbon 14 has a decay life span in excess of 5000 yrs emitting
Beta electron radiation in theory... one could say this is an engineered
form of nuclear energy.
Which is why i think Graphite is so important.
No one ( research papers ) is devoting any time to this form of, energy.
Only tangible paper ... was the old historical British study.
Where i think such resesrch could lead ?
Engineering not only beta electron storage or direct electron usage but
also, engineering uranium using suns alpha, beta, gamma rays
and inducing or enriching lead or graphite.
Cheers...