Band-gap states in V-doped TiO2 have been studied by photoemission spectroscopy over a range of photon energies encompassing the Ti 3p and V 3p core thresholds. The states show resonant enhancement at photon energies significantly higher than found for Ti 3d states introduced into TiO2 by oxygen deficiency or alkali-metal adsorbates. This demonstrates that the gap states relate to electrons trapped on dopant V cations rather than host Ti cations
In reduced TiO<sub>2</sub>, electronic transitions originating from the Ti<sup>3+</sup>-induced stat...
The influence of vanadium doping on the electronic structure of SnO2 has been studied by a range of ...
Materials with improved catalytic efficiency can be designed based on a more thorough understanding ...
Band-gap states in V-doped TiO2 have been studied by photoemission spectroscopy over a range of phot...
In reduced TiO2, electronic transitions originating from the Ti3+- induced states in the band gap ar...
In reduced TiO2, electronic transitions originating from the Ti3+- induced states in the band gap ar...
The competition between itineracy and localization of electrons doped into the near-surface region o...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Many physical and chemical processes on TiO2 surface are linked to the excess electrons originated f...
Direct and inverse ultraviolet photoemission spectroscopy (UPS and IPS) are used to measure the occu...
Direct and inverse ultraviolet photoemission spectroscopy (UPS and IPS) are used to measure the occu...
The valence band resonant photoemission spectra of a TiO2 sub-monolayer grown on an Al2O3 substrate ...
Titanium dioxide (TiO2) has a number of uses in catalysis, photochemistry, and sensing that are link...
In reduced TiO<sub>2</sub>, electronic transitions originating from the Ti<sup>3+</sup>-induced stat...
The influence of vanadium doping on the electronic structure of SnO2 has been studied by a range of ...
Materials with improved catalytic efficiency can be designed based on a more thorough understanding ...
Band-gap states in V-doped TiO2 have been studied by photoemission spectroscopy over a range of phot...
In reduced TiO2, electronic transitions originating from the Ti3+- induced states in the band gap ar...
In reduced TiO2, electronic transitions originating from the Ti3+- induced states in the band gap ar...
The competition between itineracy and localization of electrons doped into the near-surface region o...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Incorporation of dopants in semiconductors is commonly used to modify the optical response and impro...
Many physical and chemical processes on TiO2 surface are linked to the excess electrons originated f...
Direct and inverse ultraviolet photoemission spectroscopy (UPS and IPS) are used to measure the occu...
Direct and inverse ultraviolet photoemission spectroscopy (UPS and IPS) are used to measure the occu...
The valence band resonant photoemission spectra of a TiO2 sub-monolayer grown on an Al2O3 substrate ...
Titanium dioxide (TiO2) has a number of uses in catalysis, photochemistry, and sensing that are link...
In reduced TiO<sub>2</sub>, electronic transitions originating from the Ti<sup>3+</sup>-induced stat...
The influence of vanadium doping on the electronic structure of SnO2 has been studied by a range of ...
Materials with improved catalytic efficiency can be designed based on a more thorough understanding ...
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