Add to ORKGThis article reports ab initio Fermi surfaces and conduction-band calculations of both stoichiometric and oxygen-reduced MoO3. The data, based on a TB-LMTO approach in LDA, provide a convincing and detailed interpretation of the one-electron removal XPS valence bands, where a clear energy gap is observed for the stoichiometric samples, whereas a significant emission at the Fermi edge is measured for the oxygen reduced system. In addition, the electrical conductivity, as deduced from the shape of the calculated Fermi surface, is confined in the xz plane of the crystal, as required for Luttinger-liquid behavior. These results, when compared to the conduction mechanism observed in the blue bronze K0.3MoO3, clearly suggest that oxygen reduction...
An x-ray photoemission spectroscopy study of the blue molybdenum bronze K0.30MoO3 shows a conduction...
The large work function of MoO3 of 6.6 eV is due to its closed shall character and the dipole layer ...
The electronic structure of metallic K0.3MoO3 and insulating MoO3 from high-energy spectroscopy / M....
This article reports ab initio Fermi surfaces and conduction-band calculations of both stoichiometri...
The electronic properties of MoO3 and reduced molybdenum oxide phases are studied by density functio...
The electronic properties of MoO3 and reduced molybdenum oxide phases are studied by density functio...
The electronic structure of the blue bronze A0.30MoO3(A = K, Rb) was examined by performing tight-bi...
The large work function of MoO3 of 6.6 eV is due to its closed shall character and the dipole layer ...
MoO3 is well known as efficient anode buffer layer in optoelectronic devices. Actually, MoO3 can be ...
Reduced molybdenum oxide, generally MoO3–x, becomes increasingly metallic as the oxygen level decrea...
The geometric and electronic structures of MoO3 and MoO 2 have been calculated using the generalized...
Molybdenum trioxide (MoO3) is a promising material for energy conversion applications, including rec...
Molybdenum oxides are finding increasing applications that rely on their redox character. For the mo...
An x-ray photoemission spectroscopy study of the blue molybdenum bronze K0.30MoO3 shows a conduction...
Abstract. We present the first direct observation of temperature-dependent Fermi wave vectors in the...
An x-ray photoemission spectroscopy study of the blue molybdenum bronze K0.30MoO3 shows a conduction...
The large work function of MoO3 of 6.6 eV is due to its closed shall character and the dipole layer ...
The electronic structure of metallic K0.3MoO3 and insulating MoO3 from high-energy spectroscopy / M....
This article reports ab initio Fermi surfaces and conduction-band calculations of both stoichiometri...
The electronic properties of MoO3 and reduced molybdenum oxide phases are studied by density functio...
The electronic properties of MoO3 and reduced molybdenum oxide phases are studied by density functio...
The electronic structure of the blue bronze A0.30MoO3(A = K, Rb) was examined by performing tight-bi...
The large work function of MoO3 of 6.6 eV is due to its closed shall character and the dipole layer ...
MoO3 is well known as efficient anode buffer layer in optoelectronic devices. Actually, MoO3 can be ...
Reduced molybdenum oxide, generally MoO3–x, becomes increasingly metallic as the oxygen level decrea...
The geometric and electronic structures of MoO3 and MoO 2 have been calculated using the generalized...
Molybdenum trioxide (MoO3) is a promising material for energy conversion applications, including rec...
Molybdenum oxides are finding increasing applications that rely on their redox character. For the mo...
An x-ray photoemission spectroscopy study of the blue molybdenum bronze K0.30MoO3 shows a conduction...
Abstract. We present the first direct observation of temperature-dependent Fermi wave vectors in the...
An x-ray photoemission spectroscopy study of the blue molybdenum bronze K0.30MoO3 shows a conduction...
The large work function of MoO3 of 6.6 eV is due to its closed shall character and the dipole layer ...
The electronic structure of metallic K0.3MoO3 and insulating MoO3 from high-energy spectroscopy / M....