Transition Metal Hydrides

1. Introduction to Transition Metal Hydrides What is a Transition Metal Hydride?

Importance of Transition Metal Hydrides in Catalysis

Theoretical Approaches to Studying Metal Hydrides (DFT, MO Theory)

2. Electronic Structure and Bonding

Metal-Hydrogen Bond Character

Back-Donation and its Influence on Stability

Factors Affecting Hydride Stability (Metal Oxidation State, Ligand Effects)

3. Structural Features of Transition Metal Hydrides

Coordination Geometry and Hydride Position

X-ray Crystallography and Neutron Diffraction Studies

Spectroscopic Characterization (NMR, IR)

4. Formation of Transition Metal Hydrides Oxidative Addition of H2, Heterolytic Cleavage of H2, and Protonation of a Metal Complex.

5. Reactivity of Transition Metal Hydrides

Insertion Reactions (CO, Olefins)

Reductive Elimination

Hydrogen Transfer Reactions

Beta-Hydride Elimination

6. Catalytic Applications of Transition Metal Hydrides

Hydrogenation Reactions (Alkenes, Alkynes, Carbonyl Compounds)

Hydrosilylation

Hydroboration

Asymmetric Catalysis

7. Selected Case Studies The Wilkins on Catalyst (Rh-based), The Crabtree Catalyst (Ir-based), and Metal Hydrides in Polymerization Reactions.

8. Recent Advances and Future Directions Computational Modeling of Hydride Reactivity, Development of New Catalysts for Hydrogen Storage, and Biomimetic Hydride Transfer Systems.