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Covers the fundamentals of electrochemistry, focusing on cell potential, current production, and the relationship between current and reactant conversion.
Explores mass transfer in electrochemistry, covering diffusion, migration, convection, Nernst Planck equation, linear diffusion approximations, and transient response.
Explores the water window in electrochemistry, charge injection capacity, neural stimulation safety, electrode materials, and optimal stimulation characteristics.
Explores neurobiological signal processing, covering spike modeling, signal classification, and data characterization using principal component analysis.
Explores ionic balances, oxidation-reduction, and electrochemical potentiometric sensors in chemical sensing applications, including oxygen concentration measurement and air/fuel ratio optimization.
