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Electronic structure, optical properties and band edges of layered MoO3: A first-principles investigation - ScienceDirect
Electronic structure, optical properties and band edges of layered MoO3: A first-principles investigation - ScienceDirect

Metal Oxide Induced Charge Transfer Doping and Band Alignment of Graphene Electrodes for Efficient Organic Light Emitting Diodes | Scientific Reports
Metal Oxide Induced Charge Transfer Doping and Band Alignment of Graphene Electrodes for Efficient Organic Light Emitting Diodes | Scientific Reports

Variation of band gaps for MoO3 with uniaxial lattice distortion along... | Download Scientific Diagram
Variation of band gaps for MoO3 with uniaxial lattice distortion along... | Download Scientific Diagram

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Electronic structure, optical properties and band edges of layered MoO3: A first-principles investigation - ScienceDirect
Electronic structure, optical properties and band edges of layered MoO3: A first-principles investigation - ScienceDirect

Preparation, optical, and electrical properties of rubrene∶MoO3 films
Preparation, optical, and electrical properties of rubrene∶MoO3 films

Interlayer gap widened α-phase molybdenum trioxide as high-rate anodes for dual-ion-intercalation energy storage devices | Nature Communications
Interlayer gap widened α-phase molybdenum trioxide as high-rate anodes for dual-ion-intercalation energy storage devices | Nature Communications

Interface Structure of MoO3 on Organic Semiconductors | Scientific Reports
Interface Structure of MoO3 on Organic Semiconductors | Scientific Reports

Electronic structure of molybdenum-oxide films and associated charge injection mechanisms in organic devices
Electronic structure of molybdenum-oxide films and associated charge injection mechanisms in organic devices

Catalysts | Free Full-Text | Dynamics of Photogenerated Charge Carriers in TiO2/MoO3, TiO2/WO3 and TiO2/V2O5 Photocatalysts with Mosaic Structure | HTML
Catalysts | Free Full-Text | Dynamics of Photogenerated Charge Carriers in TiO2/MoO3, TiO2/WO3 and TiO2/V2O5 Photocatalysts with Mosaic Structure | HTML

Hydrogen metal oxide bronzes for efficient hole transport layers
Hydrogen metal oxide bronzes for efficient hole transport layers

mp-20589: MoO3 (orthorhombic, Pnma, 62)
mp-20589: MoO3 (orthorhombic, Pnma, 62)

View of Structural, Optical and Electrochromic Property of WO3: MoO3 Thin Film Prepared by RF Magnetron Sputtering Technique | Journal of Asian Scientific Research
View of Structural, Optical and Electrochromic Property of WO3: MoO3 Thin Film Prepared by RF Magnetron Sputtering Technique | Journal of Asian Scientific Research

MOLYBDENUM TRIOXIDE THIN FILMS DOPED WITH GOLD NANOPARTICLES GROWN BY A SEQUENTIAL METHODOLOGY: PHOTOCHEMICAL METAL-ORGANIC DEPOSITION (PMOD) AND DC-MAGNETRON SPUTTERING
MOLYBDENUM TRIOXIDE THIN FILMS DOPED WITH GOLD NANOPARTICLES GROWN BY A SEQUENTIAL METHODOLOGY: PHOTOCHEMICAL METAL-ORGANIC DEPOSITION (PMOD) AND DC-MAGNETRON SPUTTERING

Electronic properties of MoS2/MoOx interfaces: Implications in Tunnel Field Effect Transistors and Hole Contacts | Scientific Reports
Electronic properties of MoS2/MoOx interfaces: Implications in Tunnel Field Effect Transistors and Hole Contacts | Scientific Reports

Metal/Metal‐Oxide Interfaces: How Metal Contacts Affect the Work Function and Band Structure of MoO3 - Greiner - 2013 - Advanced Functional Materials - Wiley Online Library
Metal/Metal‐Oxide Interfaces: How Metal Contacts Affect the Work Function and Band Structure of MoO3 - Greiner - 2013 - Advanced Functional Materials - Wiley Online Library

Surface transfer doping of diamond by MoO3: A combined spectroscopic and Hall measurement study: Applied Physics Letters: Vol 103, No 20
Surface transfer doping of diamond by MoO3: A combined spectroscopic and Hall measurement study: Applied Physics Letters: Vol 103, No 20

Studies on the Electronic Structure of Organic/Oxide Interface by Synchrotron Radiation
Studies on the Electronic Structure of Organic/Oxide Interface by Synchrotron Radiation

The band gap energy for a MoO3 and b–d 3, 6 and 9 wt% of Ru doped MoO3 | Download Scientific Diagram
The band gap energy for a MoO3 and b–d 3, 6 and 9 wt% of Ru doped MoO3 | Download Scientific Diagram

Structure and interface chemistry of MoO3 back contacts in Cu(In,Ga)Se2 thin film solar cells: Journal of Applied Physics: Vol 115, No 3
Structure and interface chemistry of MoO3 back contacts in Cu(In,Ga)Se2 thin film solar cells: Journal of Applied Physics: Vol 115, No 3

Figure 5 from Cu2Ge(S(3-x)Se(x)) colloidal nanocrystals: synthesis, characterization, and composition-dependent band gap engineering. | Semantic Scholar
Figure 5 from Cu2Ge(S(3-x)Se(x)) colloidal nanocrystals: synthesis, characterization, and composition-dependent band gap engineering. | Semantic Scholar

mp-18856: MoO3 (monoclinic, P2_1/c, 14)
mp-18856: MoO3 (monoclinic, P2_1/c, 14)

Molecules | Free Full-Text | Nanostructured MoO3 for Efficient Energy and Environmental Catalysis | HTML
Molecules | Free Full-Text | Nanostructured MoO3 for Efficient Energy and Environmental Catalysis | HTML