Physics – Condensed Matter – Materials Science
Scientific paper
2011-10-27
Physics
Condensed Matter
Materials Science
Scientific paper
The different physical properties of multilayered graphene or graphite relative to single layer graphene result from the Dirac spins symmetry in graphene and the Pauli spin symmetry in graphite. The Dirac symmetry in multilayers of graphene (graphite) is hindered by interlayer interactions. Different magnetizations, electronics and chemistry of graphite and graphene follow from absence of interlayer interactions in graphene. The distinct kinetics and dynamics of graphite and graphene by oxidation by the Hummer's method in weak external magnetic field are observed in this work. Graphite manifest enhanced non-explosive oxidation of Pauli spins in weak magnetic field with background paramagnetic oxygen slowing the magnetic acceleration. Graphene and graphite oxide manifest explosive oxidation and magnetically decelerated explosive oxidation of Dirac spins in weak magnetic field for temperatures below 20 oCelsius. The explosive oxidation of graphene and its deceleration in weak external magnetic field are interpreted resulting from the giant nonlocality and spin Hall Effect in the chemically reacting graphene. This is the first identification, analysis and interpretation of the chemistry of the Dirac spins and the magnetochemistry of relativistic electrons.
Ansari Muhammad
Gex Glenn J.
Little Reginald B.
Mitchell James W.
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