Hydrogen incorporation in FeSe reshapes the Fermi surface and strengthens electron-phonon coupling via correlation-induced orbital renormalization, yielding Tc above 40 K and a two-gap superconducting state.
Giustino, Electron-phonon interactions from first principles, Reviews of Modern Physics89, 015003 (2017)
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Hexagonal BP3 monolayer is predicted to be a strongly coupled multiband 2D superconductor with Tc of 9.7 K and anisotropic nodeless gaps of 2.25 meV and 1.74 meV.
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Critical Role of Hydrogen in Unconventional Superconductors: The Case of Hydrogenated FeSe Layers
Hydrogen incorporation in FeSe reshapes the Fermi surface and strengthens electron-phonon coupling via correlation-induced orbital renormalization, yielding Tc above 40 K and a two-gap superconducting state.
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Strong Electron-Phonon Coupling and Multiband Superconductivity in Hexagonal BP3 Monolayer
Hexagonal BP3 monolayer is predicted to be a strongly coupled multiband 2D superconductor with Tc of 9.7 K and anisotropic nodeless gaps of 2.25 meV and 1.74 meV.