Basic Electrochemistry for Biotechnology

A Readers' Guide to 'Basic Electrochemistry for Biotechnology '

A Basic Introduction to Microbial Electrochemical Technologies
- Microbial energy conversion and microbial electrochemical technologies
- Electroactive microorganisms and mechanisms of extracellular electron transfer
- Energetics: the redox tower and a water analogy
- Wastewater characteristics
- Microbial electrochemical technologies: systems & design
- Short alert on terminology

Electrochemical Potential, Electrode Potential, and the Need for Reference Electrodes
- Introduction to electrochemical potentials
- Electrodes and electrode reactions
- The relative electrode potential and the need of reference electrodes

Reaction Equations and Thermodynamics of Electrochemical
Reactions
- Introduction to oxidation and reduction reactions and thermodynamic limits
- How to write and balance reaction equations of (bio)electrochemical reactions
- Thermodynamics of electrochemical conversions

Static Electrochemical Methods
- Introduction to static electrochemical methods
- What are a three-electrode arrangement, a potentiostat or power supply, and for what are they needed?
- The electrochemical double layer and capacitive current
- Potentiometry, amperometry, coulometry and constant current measurements
- Chronoamperometry

Electrochemical Kinetics
- Introduction to electrochemical kinetics
- Basics of electrochemical kinetics
- Electrochemical reversibility
- Overpotential
- The overpotential due to mass transfer
- Potential-current plots and electrode kinetics
- The Butler-Volmer equation
- Tafel equation and Tafel plots
- Electrocatalysis

Dynamic Electrochemical Methods
- Introduction to electrochemical methods with changing electrode potential
- Voltammetry
- Cyclic voltammetry
- Redox-active components in microorganisms
- Acquisition of polarization and power curves using stepwise chronoamperometry and chronopotentiometry
- Acquisition of polarization curves using external resistance
- Electrochemical Impedance Spectroscopy

Electrochemical Analysis of Reactors
- Introduction to characterization of microbial electrochemical cells
- Mass and electron balances and efficiency of conversions
- Polarization and power curves: analysis of measured data
- Internal resistance and potential losses
- Energy efficiency and voltage efficiency
- Ionic current and transport numbers

The Beauty and Complexity of Basic Electrochemistry for Biotechnology

Appendix
- Abbreviations
- Symbols
- Solutions to exercises