Lectures related to Circuits for Amperometric Detection

Neural Electrodes: Stimulation and Safety

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

Neural Electrodes

Explores neural stimulation using electrodes, addressing challenges in charge injection and safe stimulation limits.

CMOS Circuits for DNA Detection

Explores CMOS circuits for DNA detection, focusing on charge-based capacitance measurement methods and amperometric detection.

Electrochemistry Fundamentals

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

Dynamic Electrochemistry: Cottrell Equation and Voltammetry

Explores the Cottrell equation and voltammetry methods in electrochemistry.

Electrochemical Cells: Redox Reactions and CV Technique

Covers redox reactions, cyclic voltammetry, and electrochemical cell design for drug detection.

Electrochemical Cell: pH Calculation

Covers the calculation of pH in an electrochemical cell scenario involving copper and hydrogen electrodes.

Electrochemical Cells: Redox Reactions and Standard Potentials

Explores electrochemical cells, redox reactions, and standard potentials in depth.

Redox Reactions: Half-Reactions, Potentials, and Applications

Explores redox reactions, electrode potentials, and their practical uses in electrochemistry.

Biosensors: Electrode Technology

Explores electrode technology for biosensors, covering Ag/AgCl reference electrodes, voltammetry, conductometry, and enzyme immobilization techniques.

Mass Transfer in Electrochemistry

Explores mass transfer in electrochemistry, covering diffusion, migration, convection, Nernst Planck equation, linear diffusion approximations, and transient response.

Redox Reactions: Electrochemistry Fundamentals

Covers the fundamentals of redox reactions in electrochemistry, including oxidation, reduction, standard electrode potentials, and electrolysis.

Butler-Volmer Equation: Simplifications and Interpretations

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

Biomedical Electrodes: Interface and Impedance

Explores biomedical electrodes, covering design, impedance, interface characteristics, and strategies to avoid tissue damage.

Measuring Biopotentials: Electrode Interface

Explains the electrode-electrolyte interface in measuring biopotentials and the importance of measuring potential between different electrodes.

Electrochemistry: Principles and Applications in Thermodynamics

Introduces electrochemistry, covering electrochemical potential, oxidation-reduction reactions, and practical applications in thermodynamics.

Osmotic Pressure: Electrochemical Potential

Explores osmotic pressure and electrochemical potential, highlighting their calculation and significance in electrolyte behavior.

Electrochemistry: Redox Reactions and Cell Potential

Explores electrochemistry, emphasizing redox reactions and cell potential in galvanic cells, Nernst and Faraday's laws, and their applications in electrolysis and fuel cells.

Nanotechnology to Enhance Electron Transfer

Explores the application of carbon nanotubes in enhancing electron transfer for biosensors, emphasizing their role in improving sensitivity and detection limits.

Enzymes' based Biosensors

Explores enzymes' based biosensors, redox reactions, sensitivity in biosensors, and the detection of hydrogen peroxide.