This note explains the following topics: Basic concepts for electrochemistry, Electric charge and current, Electrical quantities and their SI units, Potential and Thermodynamics, Principles of electrochemistry, Electroactive layers and modified electrodes, Electrochemical responses of adsorbed monolayers, Photoelectrochemistry, Scanning probe techniques, Spectroelectrochemistry, Scanning probe techniques, Vibration spectroscopy.
Author(s): Prof. Sung, Yung Eun
This book presents the link between the exposed method and its applications in a very explicit manner and offers a wide range of practical examples. The book provides not only a vision of actual methods but also their necessary further improvements and suggested developments.
Author(s): Oana-Maria Boldura
This note explains the following topics: Nonfaradaic processes and electrode-solution interface, Faradaic processes and rates of electrode reactions, Mass-transfer controlled reactions, Basic Electrochemical Thermodynamics, Electrochemical potential, Liquid junction potential, Selective electrodes, Essentials of electrode reactions, Butler-Volmer model of electrode kinetics, Implications of Butler-Volmer model for 1-step, 1-e process, Mass transfer equation, Mixed migration and diffusion near an electrode, Sampled-current voltammetry for quasireversible and irreversible electrode reactions, Nernstian systems, Totally irreversible systems, Quasireversible systems and Cyclic voltammetry.
Author(s): Seoul National University
This book Electrochemical Sensors Technology mostly reviews the modem methods and significant electrochemical and electroanalytical applications of chemical sensors and biosensors. Chapters of this book are invited and contributed from the experts throughout the world from prominent researchers and scientists in the field of sensors and in the field of electro- and biochemistry.
Author(s): Mohammed Muzibur Rahman and Abdullah Mohammed Asiri
This book provides an overview on some of the recent development in electrochemical science and technology. Particular emphasis is given both to the theoretical and the experimental aspect of modern electrochemistry.
Author(s): Ujjal Kumar Sur
This note explains the theory behind fundamental electrochemical processes and also covers design, perform, troubleshoot, and analyze electrochemical experiments.
Author(s): Professor Shane Ardo
Electrochemistry has been undergoing significant transformations in the last few decades. It is now the province of academics interested only in measuring thermodynamic properties of solutions and of industrialists using electrolysis or manufacturing batteries, with a huge gap between them. Topics covered includes: Chromatographic, Polarographic and Ion-Selective Electrodes Methods for Chemical Analysis of Groundwater, Electron Beam Ablation Phenomenon, Oxidation Chemistry of Metal, Membrane Electrochemistry, Electroanalytical Sensor Technology.
Author(s): Mohammed A. A. Khalid
This note introduces principles and mathematical models of electrochemical energy conversion and storage.Topics covered includes: equivalent circuits, thermodynamics, reaction kinetics, transport phenomena, electrostatics, porous media, and phase transformations, applications to batteries, fuel cells, supercapacitors, and electrokinetics.
Author(s): Prof. Martin Bazant
This book explains the following topics: The phase-shift method and correlation constants for determining the electrochemical Frumkin, Langmuir, and Temkin adsorption isotherms at interfaces; Quantitative separation of an adsorption effect in the form of defined current probabilistic responses for catalyzed/inhibited electrode processes; A quick, simple, and non-invasive method to evaluate sudomotor dysfunctions; Cyclohexane-based liquid-biphasic systems for organic electrochemistry; Electrochemical transformation of white phosphorus as a way to compounds with phosphorus-hydrogen and phosphorus-carbon bonds.
Author(s): Jang H. Chun
This lecture note is designed to introduce the basics and applications of electrochemistry to students in varied fields, including analytical, physical and materials chemistry. Major topics covered includes: Electrode processes, Electron transfer kinetics, Mass transfer: convection, migration and diffusion, Double-layer structures and surface adsorption, Potential step techniques, Potential sweep method, Hydrodynamic techniques and Impedance based techniques.
Author(s): University of California
Edited by Currently the research field of electrochemical cells is a hotspot for scientists and engineers working in advanced frontlines of micro-, nano- and bio-technologies, especially for improving our systems of energy generation and conversation, health care, and environmental protection. With the efforts from the authors and readers, the theoretical and practical development will continue to be advanced and expanded.
Author(s): Yan Shao
This book covers the following topics related to Electrochemistry: Chromatographic, Polarographic and Ion-Selective Electrodes Methods for Chemical Analysis of Groundwater Samples in Hydrogeological Studies, Electron Beam Ablation Phenomenon, Oxidation Chemistry of Metal Salen-Type Complexes, Membrane Electrochemistry, Electroanalytical Sensor Technology, Microfluidic Devices Fabrication for Bioelectrokinetic System Applications.
Author(s): Mohammed A. A. Khalid
This note covers the following topics: Electrochemical Cell, Fuel Cell, Electrolysis Cell, Modes of charge transport, Reactions: half cell and overall, Electrode potential, Competing reactions, Faradayís law, Nonfaradaic processes.
Author(s): Vijay Ramani
This note explains theoretical and practical aspects of electrochemistry at solid electrodes with a focus on electroanalytical measurements; to develop critical thinking skills with regard to electrochemical experiment design and data interpretation; and to gain exposure to current literature in the field of electroanalytical chemistry.
Author(s): Professor Greg M. Swain
This note covers the following topics: What are Batteries, Quantities Characterizing Batteries, Tafel Curves for a Battery, Capacity, Shelf - Life, Discharge Curve/Cycle Life, Energy Density, Power Density, Service Life/Temperature Dependence, Primary and Secondary Batteries, Battery Market, Recycling and Safety Issues.
Author(s): R. Vasant Kumar and Thapanee Sarakonsri
This note covers the following topics: Fundamental Physical and Chemical Conceptions, Older Electrochemical Views, The Laws of Avogadro and van't Hoff, Vapour Pressure of Solutions, Boiling Point and Freezing Point of Solutions, General Conditions of Equilibrium, Velocity of Reaction, Electrolytes, Electrolytic dissociation, Conductivity of Electrolytes, Degree of Dissociation and Dissociation Constant, Conclusions from the Dissociation Theory, Additive Properties of Solutions, Equilibrium between Several Electrolytes, Calculation of Electromotive Forces, Calculation of Electromotive Forces, Oxidation and Reduction Elements, Secondary Elements, Electro-analysis, Development of Heat by the Electric Current.
Author(s): Arrhenius, Svante, McCrae, John
This note covers the following topics: introduction, electrolytic conductance, the theory of electrolytic conductance, the migration of ions, free energy and activity, oxidation-reduction systems, acids and bases, the determination of hydrogen ions, neutralization and hydrolysis, amphoteric electrolytes, polarization and overvoltage, the deposition and corrosion of metals, electrolytic oxidation and reduction, electrokinetic phenomena.
Author(s): Glasstone, Samuel
This note covers the following topics: Electrochemical Cells, Electrochemical Potentials, Reference Electrodes, Electrochemical Cells and Reactions, Electrified Interfaces, Electrochemical Experiment and Variables in Electrochemical Cells, Mass Transport, Current-Voltage Curve Shapes.
This note covers the following topics: Electrochemistry Basics and Case Studies, Diffusion Controlled Electrode Processes, Electrolytic cells and electrolysis, Galvanic cells and electrodes, Cell potentials and thermodynamics, The Nernst Equation, Electrodes, Electricity and the Waterfall Analogy, Voltaic Cells.
Author(s): UC Davis ChemWiki
This note covers the following topics: Ions in Solution, Electrode Potential, Charge Transfer Kinetics, Electricity, Electron Transfer, Current Density, Symmetry Coefficient, Exchange Current, Current Equations, Tafel Equation, Mass Transport, Limiting Current, Units and Symbols, Silver/Silver-Chloride Reference Electrode.
Author(s): Tanner McCarron and Weston McCarron
This book covers the following topics related to Electrochemistry: Coulometers Or Voltameters, Electrochemical Analysis, Electroplating, Electrotyping and the Production of Metallic Objects, Electrolytic Winning and Refining of Metals in Aqueous, Electrolytic Reduction and Oxidation, Electrolysis of Alkali Chlorides.
Author(s): Maurice de Kay Thompson
This note covers the following topics: Galvanic cells and electrodes, Cell potentials and thermodynamics, The Nernst Equation, Applications of the Nernst Equation, Electrochemical energy storage and conversion, Electrolytic cells and electrolysis.
Author(s): Stephen Lower
This note covers the following topics: Voltaic Cells-Galvanic Cells, Cell Potential, Balancing Redox Reactions, Rules for Assigning Oxidation states, Free Energy and Cell Potential, Nernst equation.
Author(s): UC Davis ChemWiki
This note covers the following topics: Surface Analysis: Microscopy and Spectroscopy, Industrial Applications: Fuel Cells and Batteries, Hydrothermal Electrochemistry, Synthetic Organic Electrochemistry, Industrial Applications and Sensors, Impedance Methods, Chronometric Methods, Voltammetric Methods, Electrochemical Instrumentation, Electrode Kinetics and Mass Transport, The Electrode-Solution Interface, Thermodynamics and electrochemistry fundamentals.
Author(s): Dan Thomas
This note covers the following topics: Impedance Spectroscopy, Corrosion and Coatings, Electrochemical Energy Devices, Electrodes and Cells, Instrumentation.
This note explains about the Construction of Electrochemical Cells such as Voltaic and Electrolytic Cells and about Half Reactions and Half Cells and how Concentration affects Electromotive Force.
Author(s): Jeff Altig
This note covers the following topics: Electrochemical cells, Prediction and significance of cell potentials, The Nernst equation, Batteries and fuel cells, Electrochemical Corrosion, Electrolytic cells.
Author(s): Stephen K. Lower, Simon Fraser University
This note covers the following topics: Oxidation-reduction Reactions, Ohmís Law, Types of Electrochemical Cells, Tying Electrochemistry to Thermodynamics, Galvanic Cell and Electrolytic Cells, Anodes and Cathodes, Salt Bridges, Standard Potentials, Standard Reduction Potentials, The Nernst Equation.
Author(s): Professor Laude
This note covers the following topics: Spontaneous and Nonspontaneous reactions, Review Redox Reactions, Redox Equations, Voltaic Cells, Standard Cell, Construction of Simple Galvanic Cell, Standard Hydrogen Electrode and Standard Reduction Potentials, Free Energy and Redox Reactions, Cell EMF under Nonstandard Conditions, Nernst Equation, Concentration Cell, Batteries and Fuel Cells, Corrosion and Rusting, Electrolysis or Electrolytic Cells, Nonspontaneous, Applications of Electrolysis and Quantitative Aspects of Electrolysis.
Author(s): Dr. Deanna Franke, Moorpark College
This note covers the following topics: Applications of Electrochemistry, Work from Chemical Reactions, Work from Redox Reactions , Electrochemical Cells, Atomic View of an Electrochemical Cell, Electrochemical Cells, Cell Diagrams, Redox Reactions, Current and Charge, Electrical Work, Cell Potential, Standard Cell Potential, Standard Electrode Potentials, Cell Potential and Equilibrium Constant, Dissolving Metals with Acids and The Nernst Equation.
Author(s): York University