Hole doping in C136 schwarzite monotonically suppresses magnetism from ~11 to 4.76 Bohr magnetons per cell while preserving high DOS of ~44.7 states/eV/cell at the Fermi level.
Thermal Contraction and Disordering of the Al(110) Surface
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DFT calculations find that D-type carbon schwarzite C136 hosts a spin-polarized high-DOS state after small framework-preserving distortion.
citing papers explorer
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Hole-Doping Suppresses Competing Magnetism in High-DOS C136 Carbon Schwarzite: A Computational Route Toward Superconductivity in Negative-Curvature Carbon Networks
Hole doping in C136 schwarzite monotonically suppresses magnetism from ~11 to 4.76 Bohr magnetons per cell while preserving high DOS of ~44.7 states/eV/cell at the Fermi level.
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Ab initio evidence for a framework-preserving spin-polarized high-DOS state in D-type carbon schwarzite C136
DFT calculations find that D-type carbon schwarzite C136 hosts a spin-polarized high-DOS state after small framework-preserving distortion.