Explores electrochemistry, emphasizing redox reactions and cell potential in galvanic cells, Nernst and Faraday's laws, and their applications in electrolysis and fuel cells.
Explores redox reactions in natural waters, electron transfer mediators, microbial activity, and the impact of organic carbon influx on aquifer redox conditions.
Covers the fundamentals of electrochemistry, focusing on cell potential, current production, and the relationship between current and reactant conversion.
Delves into concentration cells, solubility products, half-cell potentials, and electrochemical applications, including corrosion prevention and fuel cells.
Explores redox reactions in environmental contexts, covering measurement of potentials, aquatic systems, groundwater recharge, and water treatment processes.
