Description
Photoelectrochemical and Enzymatic Conversion of CO2 into Fuels: A Shift Towards Net Zero Energy Landscape introduces a comprehensive guide on the effective utilization of renewable energy to convert CO2 into fuels or commodity chemicals, presenting new materials such as MXenes and phosphorenes that are now being used in the catalytic conversion of CO2. This book provides guidelines on how the structural variation of catalysts will impact the reduction of carbon dioxide emissions, presenting a detailed mechanism of CO2 conversion through different conversion methods such as photo reduction, electrochemical reduction, photoelectrochemical reduction, and enzymatic reduction.This will be a welcomed resource for researchers, students, academicians, engineers, and environmental experts and agencies studying the effects and benefits of the conversion of carbon dioxide into fuels for sustainable and renewable energy.- Delivers a wealth of knowledge on cutting-edge technologies using low-cost abundant catalysts for photoelectrochemical reduction of CO2- Focuses on the design and development of novel catalysts for electrochemical, photochemical, enzymatic, and artificial photosynthesis approaches for CO2 reduction into green fuel and value-added chemicals- Addresses major challenges and issues for greenhouse gases emission worldwide
Table of Contents
1. Introduction2. Electrochemical reduction of CO23. Photochemical reduction of CO24. Enzymatic reduction of CO25. Artificial photosynthesis: Sunlight, Water and CO2 into fuels6. Advance pervoskite-based catalysis for CO2 conversion7. Phosphorene based catalyst for CO2 conversion8. Polymer based-catalyst for CO2 conversion.9. Transition metal-based single atom catalyst for CO2 conversion10. Blue-titania catalyst for CO2 conversion11. Advance carbon-based nanomaterial for CO2 conversion12. Mxene-Transition metal compound sulphide and phosphide; hetero nanostructures for CO2 conversion13. Semiconductors materials for CO2 conversion14. Photobiological CO2 reduction: Introduction and fundamental concept15. Technoeconomic analysis of electrochemical and photoelectrochemical reduction of CO216. Scalability aspects and real-world implementation of electrochemical and photoelectrochemical processes for CO2 reduction
