Nanomaterials Perovskites Oxides and Halides Catalysts

Peter R. Makgwane is a Principal Scientist at the Council for Scientific and Industrial Research (CSIR) in South Africa. Additionally, he serves as a visiting Extraordinary Professor in Chemistry at the University of the Western Cape, South Africa. Hanfeng Liang is an Associate Professor at the State Key Laboratory of Physical Chemistry of Solid Surfaces at Xiamen University, China. He earned his Ph.D. from Xiamen University in 2015. Prior to joining Xiamen University, he was a visiting scholar at the University of Wisconsin-Madison, USA, and a postdoctoral researcher at King Abdullah University of Science and Technology, Saudi Arabia. Dr. Liang's research interests include the rational synthesis of nanomaterials and functional coatings, with a focus on their applications in electrocatalysis and aqueous energy storage. He currently serves as an Assistant Subject Editor of the International Journal of Hydrogen Energy and sits on the (youth) editorial boards of several journals, including The Innovation, Chinese Chemical Letters, Exploration, Catalysis Communications, Tungsten, and Materials Futures. Bhalchandra M. Bhanage is the Head and Professor of Industrial and Engineering Chemistry in the Department of Chemistry at the Institute of Chemical Technology, Mumbai, India. He obtained his PhD from the National Chemical Laboratory, India, in 1995 and subsequently held various positions at Tohoku University and Hokkaido University in Japan. Prof. B.M. Bhanage’s research focuses on the green synthesis of nanomaterials and their applications across various fields, with a focus on catalysis. He has made significant contributions to catalysis for the activation of small molecules such as carbon dioxide, carbon monoxide, and hydrogen for various reactions. Additionally, he has developed novel strategies for reactions including Heck, Suzuki, Sonogashira coupling reactions, their carbonylative forms, hydroformylations, aminocarbonylations, alcoxycarbonylations, aminations, hydrogenations, among others. Prashanth W. Menezes is Head of the Materials Chemistry Group for Thin Film Catalysis at CatLab of Helmholtz-Zentrum Berlin für Materialien und Energie and the Inorganic Materials Group at the Technical University of Berlin, Germany. His research focuses on the design, development, and structural understanding of novel unconventional catalysts in heterogeneous catalysis, especially in the area of redox oxygen catalysis, (photo)electrocatalytic water splitting, as well as electrochemical redox reactions.

PART 1: INTRODUCTION AND FUNDAMENTALS
1. Perovskites Oxides and Halides– An Introduction and Scope of Applications
2. Synthesis and Structure Attributes of Perovskites Oxides and Halides
3. Advances in Machine Learning Approach Design of Perovskites Catalysts – Towards Structural Properties Optimization

PART 2: ENERGY GENERATION AND STORAGE
4. Perovskites Halides in Photocatalytic, Electrocatalytic and Photoelectrocatalytic Water-Splitting for Hydrogen Generation
5. Perovskites Oxides in Photocatalytic, Electrocatalytic and Photoelectrocatalytic Water-Splitting for Hydrogen Generation
6. Perovskites Catalysts in Fuel Cells Applications
7. Perovskites Oxides-Based Electrodes for Batteries Energy Storage
8. Supercapacitors for Energy Storage with Perovskites Based Electrodes
9. Perovskites Oxides Catalysts in the Conversion of Methane to Hydrogen and Syngas
10. Perovskite Oxide Catalysts in Catalytic Biogas Dry Reforming
11. Perovskites Oxides Catalysts in Photothermal Energy Conversion Reactions
12. Perovskites Oxide Catalysts in Biodiesel and Biofuel Chemicals Productions

PART 3: CHEMICAL CONVERSIONS
13. Perovskite Oxide Catalysts for Direct Conversion of Syngas to Chemicals
14. Perovskites Oxides in Thermo-Catalytic CO2 Hydrogenation to Chemicals
15. Perovskites Oxides Catalysts for Photocatalytic and Electrochemical Reduction of CO2 to Chemicals
16. Perovskites Halides in Photocatalytic, Electrocatalytic and Photoelectrocatalytic Reduction of CO2 to Chemicals
17. Photocatalytic, Electrocatalytic and Photoelectrocatalytic Reduction of Nitrogen to Ammonia with Perovskites Catalysts
18. Perovskites Catalysts in Organic Chemical Conversions

PART 4: ENVIRONMENTAL APPLICATIONS
19. Perovskites Photocatalysts for Remediation of Organic Pollutants from Wastewater
20. Perovskites Composites for Adsorptive Removal of Metal Ions Water Contaminants
21. Perovskites Catalysts for Remediation of Gaseous Air Pollutants
22. Perovskites Catalytic Materials for Gas Chemical Sensing
23. Industrial Potentials and Challenges of Metal Alloy Catalytic Driven Technologies