Frontiers | Oxygen Defects and Surface Chemistry of Reducible Oxides | Materials
Why the direct band gap semiconductor get higher optical absorption coefficient than indirect band gap semiconductor - Physics Stack Exchange
Modification strategies of TiO2 for potential applications in photocatalysis: a critical review
An Overview of the Photocatalytic H2 Evolution by Semiconductor-Based Materials for Nonspecialists
d-Band Theory - ORR Catalysis with Pt-based CSNPs
Absolute energy level positions in tin- and lead-based halide perovskites | Nature Communications
Band structure engineering in metal halide perovskite nanostructures for optoelectronic applications - ScienceDirect
MnPSe3 Monolayer: A Promising 2D Visible‐Light Photohydrolytic Catalyst with High Carrier Mobility - Zhang - 2016 - Advanced Science - Wiley Online Library
Colour - Energy bands | Britannica
Estimation of the band gap energy for (a) indirect transition and (b)... | Download Scientific Diagram
Revisiting the optical bandgap of semiconductors and the proposal of a unified methodology to its determination | Scientific Reports
Catalysts | Free Full-Text | Titanium Dioxide: From Engineering to Applications | HTML
Band Gap Energy - an overview | ScienceDirect Topics
Band alignment in multilayered semiconductor homojunctions supported on metals - Journal of Materials Chemistry C (RSC Publishing)
Colour - Energy bands | Britannica
Direct and indirect band gaps - Wikipedia
Optical quantum confinement and photocatalytic properties in two-, one- and zero-dimensional nanostructures | Royal Society Open Science
MS Wide band gap chalcogenide semiconductors 011620
RP Photonics Encyclopedia - band gap, dielectrics, semiconductors, metals, energy, electronic levels, band gap wavelength, absorption, emission, fluorescence
Direct and indirect band gaps - Wikipedia
Metal‐Complex/Semiconductor Hybrid Photocatalysts and Photoelectrodes for CO2 Reduction Driven by Visible Light - Maeda - 2019 - Advanced Materials - Wiley Online Library
Rare earth oxides in zirconium dioxide: How to turn a wide band gap metal oxide into a visible light active photocatalyst - ScienceDirect
Optical quantum confinement and photocatalytic properties in two-, one- and zero-dimensional nanostructures | Royal Society Open Science
MS Wide band gap chalcogenide semiconductors 011620
Adsorption energy trends This plot shows the difference in adsorption... | Download Scientific Diagram
