Batteries, fuel cells and electrolysis: Battery principle

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Explores the working principles of fuel cells, covering chemical reactions, electrode surfaces, materials, thermodynamics, kinetics, and efficiency.

Batteries, fuel cells and electrolysis: Losses

Discusses losses in batteries, fuel cells, and electrolysis, as well as fuel cell electrical efficiency and a comparison between hydrogen and methane fuel cells.

Electrochemical Reactions

Explores electrochemical reactions, including electrolysis of NaCl, anodic and cathodic reactions, production rates, and current efficiency.

CO2 Electrolyzers

Explores CO2 electrolyzers, focusing on catalysts, selectivity, and the role of copper.

Electrochemical Storage and Hydrogen Challenges

Explores the evolution of electrochemical storage technologies and the challenges in CO2 capture and green hydrogen production.

Neural Electrodes: Stimulation and Safety

Explores neural stimulation with electrodes, discussing current flow effects, charge injection challenges, and electrode material properties.

Dynamic Electrochemistry: Interfacial Metal/Electrolyte Reactions Study

Explores dynamic electrochemistry, emphasizing charge transfer processes and interfacial reactions in solutions.

Batteries, Fuel Cells and Electrolysis: Advantages

Explores fuel cell characteristics, efficiency, emissions, and performance compared to combustion, emphasizing advantages and challenges in the field.

Batteries, Fuel Cells and Electrolysis: Efficiency

Explores fuel cells types, efficiency calculations, chemical energy conversion, and Nernst voltage relationships.

Electrochemistry Fundamentals

Delves into concentration cells, solubility products, half-cell potentials, and practical electrochemistry applications, including electrolysis and corrosion prevention.