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Full Description
The present book focuses on advancement in the application of heterogeneous catalytic materials for the dehydrogenative synthesis of valuable organic compounds from substrates such as alcohols and simple aliphatic compounds. Several heterogeneous transition metals-based catalytic materials are explored for the synthesis of valuable chemicals for industrial applications. The book provides insight into the application of state-of-the-art technology for energy utilization and clean chemical synthesis.
Features:
Offers a wide overview of dehydrogenation catalytic chemistry catalyzed by transition metals and their compounds.
Helps design novel and more benign and uncomplicated protocols for the synthesis of valuable chemicals from readily available raw materials.
Provides deeper insight into the aspect of dehydrogenation reactions for clean chemical synthesis via a cascade process.
Summarizes new mechanistic details of dehydrogenation reactions, experimental side development and applications of dehydrogenation techniques.
Explores alternative solutions for the assimilation and transportation of clean energy in the form of hydrogen energy utilization.
This book is aimed at graduate students and researchers in chemical engineering, chemistry, catalysis, organic synthesis, pharmaceutical chemistry and petrochemistry.
Contents
Chapter 1 Introduction to Dehydrogenation Reactions of Organic Compounds
Chapter 2 Transition Metal-Based Catalyst for Dehydrogenation Reactions of Organic Compounds
Chapter 3 Transition Metal Catalyst Free Dehydrogenative Organic Synthesis: Role of New Materials, Composites, and Nanomaterials
Chapter 4 Dehydrogenation Reaction of Aliphatic and Aromatic Alcohols
Chapter 5 Dehydrogenation Reactions of Hydrocarbons: Alkane, Alkenes, and Aromatic Hydrocarbons
Chapter 6 Dehydrogenation Reactions of Aliphatic and Aromatic Amines
Chapter 7 Dehydrogenation Reactions of Aliphatic and Aromatic Carboxylic Acids and Their Derivatives
Chapter 8 Dehydrogenation Reactions of Heterocyclic Compounds and Their Derivatives
Chapter 9 Recent Advances in Dehydrogenative Technique for Hydrogen Energy Storage and Utilization
Chapter 10 Dehydrogenation Reactions and Inspirations from Nature for the Synthesis of Building Blocks Leading to Valued Pharmaceutical Compounds
Chapter 11 Industrial Applications of Dehydrogenation Reactions: Process Design of Reactors
Chapter 12 Future Aspects of Dehydrogenation Reactions
Chapter 13 Utilizing Ruthenium (Ru) Complexes in Dehydration Reactions of Saturated and Unsaturated Compounds
Chapter 14 Dehydrogenation Reactions Incorporating Membrane Catalysis
Chapter 15 A Greener Dehydrogenation: Environmentally Benign Reactions
Chapter 16 Application of Pt- and Non Pt-Based Zeolitic Catalysts for Dehydrogenation of Light Alkanes
Chapter 17 Porous Nanomaterials as Heterogeneous Catalysts for the Dehydrogenation of Paraffin
