Handbook of Smart Photocatalytic Materials

Section I: Photocatalytic materials for Energy
1. Ferroelectric semiconductors for photocatalytic energy and environmental applications

Section II: Photocatalytic materials for environmental protection

2. Metal-oxide semiconductor photocatalysts for the degradation of organic contaminants
3. Different strategies of surface modification to improve the photocatalysis properties: pollutant adsorption, visible activation, and catalyst recovery
4. Sustainable photocatalytic porcelain gres slabs active under LED light for indoor depollution and bacteria reduction

5. Zinc oxide-based nanomaterials for environmental applications

6. The application of photocatalytic materials for efficient air purification
7. Photocatalyst: mechanism, challenges, and strategy for organic contaminant degradation
8. Degradation of environmental contaminants by topical heterogeneous photocatalysts
9. Solar photocatalysis for environmental remediation
10. Progress in the preparation of TiO2 films at boron-doped diamond toward environmenta applications

Section III: Emerging Applications of Photocatalytic materials
11. Emerging trends in photocatalytic transformation of biomass-derived glycerol into hydrogen fuel and value-added chemicals

12.Two-dimensional MXene-based heterostructures for photocatalysis