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- Metal-induced_gap_states abstract "In bulk semiconductor band structure calculations, it is assumed that the crystal lattice (which features a periodic potential due to the atomic structure) of the material is infinite. When the finite size of a crystal is taken into account, the wavefunctions of electrons are altered and states that are forbidden within the bulk semiconductor gap are allowed at the surface. Similarly, when a metal is deposited onto a semiconductor (by thermal evaporation, for example), the wavefunction of an electron in the semiconductor must match that of an electron in the metal at the interface. Since the Fermi levels of the two materials must match at the interface, there exists gap states that decay deeper into the semiconductor.".
- Metal-induced_gap_states thumbnail Diagram_of_band-bending_interfaces_between_two_different_metals_and_two_different_semiconductors.jpg?width=300.
- Metal-induced_gap_states wikiPageID "14698685".
- Metal-induced_gap_states wikiPageLength "7837".
- Metal-induced_gap_states wikiPageOutDegree "43".
- Metal-induced_gap_states wikiPageRevisionID "647567869".
- Metal-induced_gap_states wikiPageWikiLink Band_structure.
- Metal-induced_gap_states wikiPageWikiLink Bardeen.
- Metal-induced_gap_states wikiPageWikiLink C._Tejedor,_F._Flores_and_E._Louis.
- Metal-induced_gap_states wikiPageWikiLink Category:Electronic_band_structures.
- Metal-induced_gap_states wikiPageWikiLink Category:Semiconductor_structures.
- Metal-induced_gap_states wikiPageWikiLink Crystal_lattice.
- Metal-induced_gap_states wikiPageWikiLink Crystal_structure.
- Metal-induced_gap_states wikiPageWikiLink Density_of_states.
- Metal-induced_gap_states wikiPageWikiLink Dipole.
- Metal-induced_gap_states wikiPageWikiLink Dopant.
- Metal-induced_gap_states wikiPageWikiLink Dopants.
- Metal-induced_gap_states wikiPageWikiLink Electrical_conduction.
- Metal-induced_gap_states wikiPageWikiLink Electrical_resistivity_and_conductivity.
- Metal-induced_gap_states wikiPageWikiLink Electron.
- Metal-induced_gap_states wikiPageWikiLink Electronegativities.
- Metal-induced_gap_states wikiPageWikiLink Electronegativity.
- Metal-induced_gap_states wikiPageWikiLink Electronic_band_structure.
- Metal-induced_gap_states wikiPageWikiLink Electrons.
- Metal-induced_gap_states wikiPageWikiLink Evaporation_(deposition).
- Metal-induced_gap_states wikiPageWikiLink Federico_Garcia-Moliner_and_Fernando_Flores.
- Metal-induced_gap_states wikiPageWikiLink Fermi_level.
- Metal-induced_gap_states wikiPageWikiLink Fermi_level_pinning.
- Metal-induced_gap_states wikiPageWikiLink Fermi_levels.
- Metal-induced_gap_states wikiPageWikiLink File:Diagram_of_band-bending_interfaces_between_two_different_metals_and_two_different_semiconductors.jpg.
- Metal-induced_gap_states wikiPageWikiLink File:Migsbarrier.JPG.
- Metal-induced_gap_states wikiPageWikiLink Fourier_series.
- Metal-induced_gap_states wikiPageWikiLink GaAs.
- Metal-induced_gap_states wikiPageWikiLink GaP.
- Metal-induced_gap_states wikiPageWikiLink Gallium_arsenide.
- Metal-induced_gap_states wikiPageWikiLink Gallium_phosphide.
- Metal-induced_gap_states wikiPageWikiLink Germanium.
- Metal-induced_gap_states wikiPageWikiLink Gold.
- Metal-induced_gap_states wikiPageWikiLink J._Tersoff.
- Metal-induced_gap_states wikiPageWikiLink Metal.
- Metal-induced_gap_states wikiPageWikiLink Metal–semiconductor_junction.
- Metal-induced_gap_states wikiPageWikiLink Schottky_barrier.
- Metal-induced_gap_states wikiPageWikiLink Semiconductor.
- Metal-induced_gap_states wikiPageWikiLink Silicon.
- Metal-induced_gap_states wikiPageWikiLink Valence_(chemistry).
- Metal-induced_gap_states wikiPageWikiLink Varactor.
- Metal-induced_gap_states wikiPageWikiLink Varicap.
- Metal-induced_gap_states wikiPageWikiLink Volker_Heine.
- Metal-induced_gap_states wikiPageWikiLink Wave_function.
- Metal-induced_gap_states wikiPageWikiLink Wavefunctions.
- Metal-induced_gap_states wikiPageWikiLink Work_function.
- Metal-induced_gap_states wikiPageWikiLinkText "Metal-induced gap states".
- Metal-induced_gap_states wikiPageWikiLinkText "metal-induced gap states".
- Metal-induced_gap_states hasPhotoCollection Metal-induced_gap_states.
- Metal-induced_gap_states wikiPageUsesTemplate Template:Reflist.
- Metal-induced_gap_states subject Category:Electronic_band_structures.
- Metal-induced_gap_states subject Category:Semiconductor_structures.
- Metal-induced_gap_states hypernym Infinite.
- Metal-induced_gap_states type Physic.
- Metal-induced_gap_states type Semiconductor.
- Metal-induced_gap_states type Structure.
- Metal-induced_gap_states comment "In bulk semiconductor band structure calculations, it is assumed that the crystal lattice (which features a periodic potential due to the atomic structure) of the material is infinite. When the finite size of a crystal is taken into account, the wavefunctions of electrons are altered and states that are forbidden within the bulk semiconductor gap are allowed at the surface.".
- Metal-induced_gap_states label "Metal-induced gap states".
- Metal-induced_gap_states sameAs m.03gtgsx.
- Metal-induced_gap_states sameAs Q6822560.
- Metal-induced_gap_states sameAs Q6822560.
- Metal-induced_gap_states wasDerivedFrom Metal-induced_gap_states?oldid=647567869.
- Metal-induced_gap_states depiction Diagram_of_band-bending_interfaces_between_two_different_metals_and_two_different_semiconductors.jpg.
- Metal-induced_gap_states isPrimaryTopicOf Metal-induced_gap_states.