Concept

Tafel equation

Related lectures (31)

Butler-Volmer Equation: Simplifications and Interpretations

Explores the Butler-Volmer equation simplifications, interpretations of kº, and mass transport effects in electrochemical reactions.

Electrochemical Kinetics

Delves into electrochemical kinetics, covering fuel cells, Butler-Volmer equation, current-voltage curves, and charge transfer resistance.

Solar Energy Conversion Devices

Explores solar energy conversion devices, electrochemistry, efficiency calculations, and mass transfer modes in solar energy systems.

Electrocatalysis Fundamentals

Covers the basics of electrocatalysis, including exchange current density and Tafel slope.

Mass Transport in Butler-Volmer Equation

Explores the influence of mass transport on the Butler-Volmer Equation and analyzes the total overpotential and its components.

Dynamic Electrochemistry: Butler-Volmer Equation

Explores the Butler-Volmer equation and its role in electrochemistry applications.

Hydrogen Economy: Fuel Cells and Electrochemistry

Explores fuel cells, electrocatalysis, and the hydrogen economy, emphasizing energy efficiency and challenges in catalyst materials.

Electrode Polarization and Tissue Damage

Explores electrode polarization, tissue damage causes, and avoidance methods, including biphasic pulses and interface modeling.

Butler-Volmer Equation

Explains the Butler-Volmer equation, exchange current density, and electrode reaction kinetics.

Photochemistry II: Electron Transfer Kinetics

Explores electron transfer kinetics in photochemistry, covering Marcus theory, precursor complex formation, and potential energy surfaces.

DLVO Theory and Electrochemistry

Explores DLVO theory for colloid stability and membrane potential, along with dynamic electrochemistry concepts like galvanic cells and Nernst's law.

Probe Detection with Faradaic Processes

Explores probe detection through faradaic processes at electrochemical interfaces with enzymes, covering redox reactions, sensitivity metrics, and detection limits.

Photochemistry I: Light-Induced Electron Transfer

Explores light-induced electron transfer dynamics, semiconductors' electrochemical potential, band edge potentials, and pericyclic reactions.

Redox Reactions: Predominance Diagrams

Covers the solubility of metal hydroxides, redox reactions in aquatic systems, arsenic mobilization, water treatment, and the Nernst equation application.

Chemical Equilibria and Reactivity

Explores chemical equilibria, redox reactions, Nernst equation, electrochemical cells, pH influence, and membrane potential.

Electroplating Fundamentals

Explores electroplating basics, adhesive types, and hardening mechanisms in detail.

Molecular Catalysts: Design and Applications

Explores the design and advantages of molecular catalysts, focusing on their applications for hydrogen evolution reactions and the concept of overpotential.

Electrochemistry Fundamentals

Delves into concentration cells, solubility products, half-cell potentials, and electrochemical applications, including corrosion prevention and fuel cells.

Redox: Fundamentals and Applications

Covers the fundamentals of redox reactions, environmental applications, and challenges in redox measurements.

Electrochemistry Fundamentals

Covers the fundamentals of electrochemistry, focusing on cell potential, current production, and the relationship between current and reactant conversion.