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Lecture
Hydrogen Economy: Fuel Cells and Electrochemistry
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Fuel Cell: Thermodynamics
Explores the thermodynamics of fuel cells, including reactions, variables, and reversible/irreversible cases.
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Explores CO2 electrolyzers, focusing on catalysts, selectivity, and the role of copper.
Neural Electrodes: Stimulation and Safety
Explores neural stimulation with electrodes, discussing current flow effects, charge injection challenges, and electrode material properties.
Fuel Cells: Working Principles
Explores the working principles of fuel cells, covering chemical reactions, electrode surfaces, materials, thermodynamics, kinetics, and efficiency.
Solar Energy: Solar-to-fuel
Explores converting solar energy into fuel through methods like solar cracking and steam reforming, emphasizing efficiency and chemical reactions.
Electrocatalysis Fundamentals
Covers the basics of electrocatalysis, including exchange current density and Tafel slope.
Hydrogen Production: Solar Energy Integration
Explores hydrogen production from solar energy and integrated photoelectrochemical devices.
Dynamic Electrochemistry: Butler-Volmer Equation
Explores the Butler-Volmer equation and its role in electrochemistry applications.
Batteries, Fuel Cells and Electrolysis: Efficiency
Explores fuel cells types, efficiency calculations, chemical energy conversion, and Nernst voltage relationships.
Solar Energy: Basics in Thermal Transport and Solar Systems
Covers the basics of energy states in matter, thermal transport, and solar systems, emphasizing the importance of electrochemistry in solar energy applications.
