Band Edge Electronic Structure of BiVO4: Elucidating the Role of the Bi s and V d Orbitals
Materials Chemistry A
Structural stability, band structure and optical properties of different BiVO4 phases under pressure | SpringerLink
Graphene/BiVO4/TiO2 nanocomposite: tuning band gap energies for superior photocatalytic activity under visible light | SpringerLink
Insights into the electronic bands of WO3/BiVO4/TiO2, revealing high solar water splitting efficiency - Journal of Materials Chemistry A (RSC Publishing)
A hole inversion layer at the BiVO4/Bi4V2O11 interface produces a high tunable photovoltage for water splitting | Scientific Reports
Fabrication of the heterojunction catalyst BiVO4/P25 and its visible-light photocatalytic activities | Royal Society Open Science
Effects of Fluorination and Molybdenum Codoping on Monoclinic BiVO4 Photocatalyst by HSE Calculations | ACS Omega
Energy band edge alignment of anisotropic BiVO4 to drive photoelectrochemical hydrogen evolution - ScienceDirect
Band structure of pure BiVO 4 associated with the energetic value of... | Download Scientific Diagram
Efficient solar water splitting by enhanced charge separation in a bismuth vanadate-silicon tandem photoelectrode | Nature Communications
Effects of Doping on the Crystal Structure of BiVO4
Phase transition-induced band edge engineering of BiVO4 to split pure water under visible light | PNAS
Structural stability, band structure and optical properties of different BiVO4 phases under pressure | SpringerLink
Surface modification of m-BiVO4 with wide band-gap semiconductor BiOCl to largely improve the visible light induced photocatalytic activity - ScienceDirect
Surface modification of m-BiVO4 with wide band-gap semiconductor BiOCl to largely improve the visible light induced photocatalytic activity - ScienceDirect
Electronic and optical competence of TiO2/BiVO4 nanocomposites in the photocatalytic processes | Scientific Reports
Energy Band Alignment of BiVO4 from Photoelectron Spectroscopy of Solid-state Interfaces
Frontiers | Effects of Zirconium Doping Into a Monoclinic Scheelite BiVO4 Crystal on Its Structural, Photocatalytic, and Photoelectrochemical Properties
Fabrication of core-shell BiVO4@Fe2O3 heterojunctions for realizing photocatalytic hydrogen evolution via conduction band elevation - ScienceDirect
Composite Photocatalysts Containing BiVO4 for Degradation of Cationic Dyes | Scientific Reports
Energy Band Alignment of BiVO4 from Photoelectron Spectroscopy of Solid-state Interfaces
