Proposed high-power beta cells from MgAlB14-type icosahedral-boron semiconductors

Proposed high-power beta cells from MgAlB14-type icosahedral-boron semiconductors

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Beta cells generate electric power as copyright-producing beta irradiation from incorporated radioisotopes bombard a series of p-n-junctions.However, radiation damage to the semiconductors commonly used in solar cells limits beta cells to extremely weak irradiations that generate concomitantly Table miniscule electric powers, e.g.

micro-Watts.By contrast, beta cells that generate many orders-of-magnitude larger powers are possible with icosahedral boron-rich semiconductors since their bombardment-induced atomic displacements spontaneously self-heal.Furthermore, substitutions for Mg and Al atoms of icosahedral-boron-rich semiconductors based on the MgAlB14 structure can produce p-n junctions as electron transfers from doping-induced interstitial extra-icosahedral atoms convert some normally p-type materials to n-type.

Moreover, electron-phonon Intake Kit interactions of the resulting readily displaceable interstitial cations with charge carriers foster their forming large polarons.Oppositely charged polarons repel one another at short range.These repulsions suppress the recombination of n-type with p-type polarons thereby increasing the beta-cell efficiency.

All told, use of these icosahedral boron-rich semiconductors could enable beta cells with electric powers that are many orders of magnitude larger than those of existing beta cells.This development opens a new avenue for generating electricity from nuclear decays.