Lecture

Oxygen Evolution Reaction Catalysts

Related lectures (31)

Introduces the basics of homogeneous catalysis, focusing on reaction mechanisms and catalyst design.

Transition Metal Oxides in Oxygen Evolution

Explores transition metal oxides in the oxygen evolution reaction and the challenges in proving the active element, along with benchmarking electrocatalysts for oxygen evolution.

Heterogeneous Catalysis: Introduction and Surface Reactivity

Introduces the basics of heterogeneous catalysis, focusing on catalyst types, surface reactivity, and the role of surface energy in catalytic processes.

Oxygen Evolution Catalysts

Explores biological and molecular catalysts for oxygen evolution, focusing on photosystem II, O-O bond formation, and ruthenium complexes.

Catalysis for H2 Production

Explores catalytic processes for hydrogen production, focusing on partial oxidation and catalyst deactivation due to carbon formation.

Heterogeneous Catalysis: Kinetics and Mechanisms

Explores heterogeneous catalysis, focusing on reaction mechanisms, kinetics, and ammonia synthesis.

Transition Metal Oxides: OER Catalysis

Explores transition metal oxides as OER catalysts, focusing on active sites in Fe-free and Fe-doped Ni oxides, revealing insights into the OER mechanism.

Untitled

Hydrogen Evolution Catalysis

Explores hydrogen evolution catalysis, including Fe-porphyrin overpotential, HER mechanisms, and molecular catalyst applications.

Nanocrystal Synthesis: Nucleation and Growth

Explores nanocrystal synthesis, focusing on nucleation and growth mechanisms, classical and non-classical theories, and chemical reaction mechanisms for metal oxides and semiconductors.

Carbene Chemistry: Fundamentals and Applications

Explores the fundamentals and applications of carbene chemistry in organic synthesis and material science.

Organometallic Chemistry: Fundamentals

Covers the fundamentals of organometallic chemistry, including ligand types, bonding, reactivity, and applications in catalysis and medicine.

Stochastic Method: Kinetics Modeling

Covers the stochastic method for kinetics modeling and the probability of reactions.

Metal Carbonyls: Applications and Reactions

Discusses metal carbonyls and their applications in catalysis and chemical reactions, including the introduction of metal carbines and their significance in synthetic chemistry.

Hydrogenation Mechanism

Delves into the detailed reaction mechanism of hydrogenation, emphasizing Wilkinson's catalyst and the impact of ligand design.

Transition Metal Catalysis: Kumada Coupling

Explores the history and significance of the Kumada Coupling reaction in transition metal catalysis.

Spectroscopy and chemical kinetics

Explores spectroscopic techniques in biology and chemical kinetics, including reaction mechanisms and coordination chemistry.

Metathesis: Catalyst Reactivity and Initiation Rate

Explores catalyst reactivity in metathesis reactions, emphasizing initiation rates and ligand effects.

Modelling the Kinetics of Heterogeneously Catalysed Reactions

Explores the predictive power of modelling reaction kinetics at low computational cost, emphasizing the importance of accurate models and efficient approximations.