Explores oxidation, reduction, redox reactions, Nernst equation, redox potential calculation, and pe-pH stability diagrams.
Explores electrochemical biosensors, amperometry, glucose sensors, enzymatic biosensors, mediators, cyclic voltammetry, and electrochemiluminescence in biosensors.
Covers the fundamentals of electrical neural stimulation, electrode-tissue interface, charge balancing, tissue damage, and safe stimulation levels.
Explores CMOS circuits for DNA detection, focusing on charge-based capacitance measurement methods and amperometric detection.
Explores biomedical electrodes, covering design, impedance, interface characteristics, and strategies to avoid tissue damage.
Explores mass transfer in electrochemistry, covering diffusion, migration, convection, Nernst Planck equation, linear diffusion approximations, and transient response.
Explores CMOS technology for metabolites detection, covering enzymatic reactions, cyclic voltammetry, and pH influence on Faradaic currents.
Explores potential step methods, CV curves, energy storage devices, water-splitting, microbial fuel cells, batteries, capacitors, and Li-ion battery design.
Explores the biophysics of ion channels and their vital role in neuronal signaling and physiological processes.
Discusses the enhancement of sensitivity for hydrogen peroxide detection using SWCNTs in cyclic voltammetry.
