A solar processing unit (SPU) for the conversion of solar energy to electric power includes a heterostructure of sheets of two (2)-dimensional materials. The heterostructure is utilized to produce a crystalline structure, wherein elemental Boron (B) and elemental Nitrogen (N), contained in sheets of hexagonal Boron Nitride (hBN), are located as bookends to one or more Carbons (C)s, between at least one sheet of Graphene. Each absorbed photon produces Multi-Excitation Generation, wherein more than one electron is generated. The SPU produces a spin motion of the Boron atoms in one direction and the Nitrogen atoms in the opposite direction within hBN by placing an external fixed magnetic field perpendicular to the sheet of hBN and a second orthogonal magnetic field paired to the strength of the fixed magnetic field and tuned to the resonant magnetic frequency of Nitrogen-15 followed by Boron-11, thereby achieving the spin required for enhanced photonic absorption.
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