Graphenic nanospace: Bondonic entanglement perspectives

ABSTRACT

The recently predicted quantum particles of the chemical bonding, the bondons, are recognized as the elemental driving quasi-particle driving EPR (Einstein-Podolsky-Rosen) entangling signal under the topological Stone-Wales rotations in a quantum completeness Alice-Bob nano-portation typical description among their representation on carbon-based nano-structures as fullerenic, graphenic, including positive and negative nanospace evertions. To this end, special conceptual symmetrical related framework is through the three significant levels (i) spherical symmetry—by the morphism between fullerene 240 and icosahedral modeled SARS-Cov-2 surface patterned coronavirus, toward providing the topo-reactive triggered activity by means of HOMO and LUMO electronegativity and chemical hardness based descriptors;(ii) planar symmetry—through the carbon-based graphentronics is advanced at the bondonic quantum level controlling the logical gates in metrological transmitting the qubit Bob's signal in homo-mixed graphenic plated and—for the new generation of photovoltaics (PV) by bondots (bondons as quantum dots)—toward 2(N)-Qbits entangled pristine and defective (by Stone-Wale rotations) double graphenic sheets;(iii) self-folding symmetry—across the graphenic modified surfaces in positive (nano-tori) and negative (Klein Bottle) nanospaces in driving the bondonic bosonic transmission by dynamics of quantum chemical bonding on extended nano-surfaces. [ FROM AUTHOR]