Verfügbarkeit: Understanding voltammetry :

Understanding voltammetry :: simulation of electrode processes /

This is the first textbook in the field of electrochemistry that will teach experimental electrochemists how to carry out simulation of electrode processes. Processes at both macro- and micro-electrodes are examined and the simulation of both diffusion-only and diffusion-convection processes are add...

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Bibliographische Detailangaben
1. Verfasser:	Compton, R. G.
Weitere Verfasser:	Laborda, Eduardo, 1983-, Ward, Kristopher R.
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	[London?] : Imperial College Press, 2013.
Schlagworte:	Voltammetry > Textbooks. Electrochemistry > Textbooks. SCIENCE > Chemistry > Physical & Theoretical. Electrochemistry Voltammetry Textbooks
Online-Zugang:	Volltext
Zusammenfassung:	This is the first textbook in the field of electrochemistry that will teach experimental electrochemists how to carry out simulation of electrode processes. Processes at both macro- and micro-electrodes are examined and the simulation of both diffusion-only and diffusion-convection processes are addressed. The simulation of processes with coupled homogeneous kinetics and at microelectrode arrays are further discussed. Over the course of the book the reader's understanding is developed to the point where they will be able to undertake and solve research-level problems. The book leads the reader through from a basic understanding of the principles underlying electrochemical simulation to the development of computer programs which describe the complex processes found in voltammetry. This is the third book in the "Understanding Voltammetry" series, published with Imperial College Press and written by the Compton group. Other books in the series include "Understanding Voltammetry", written by Richard G. Compton with Craig Banks and also "Understanding Voltammetry: Problems and Solutions" (2012) written by Richard G. Compton with Christopher Batchelor-McAuley and Edmund Dickinson. These are and continue to be successful textbooks for graduates in electrochemistry and electroanalytical studies
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781783263257 1783263253 1306182999 9781306182997

Internformat

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505	0		\|a 1. Introduction. 1.1. Electrochemical systems. 1.2. Voltammetric techniques. 1.3. Finite difference methods. 1.4. Voltammetry: a selected bibliography -- 2. Mathematical model of an electrochemical system. 2.1. Cyclic voltammetry. 2.2. Diffusion: Fick's second law. 2.3. Boundary conditions. 2.4. Current. 2.5. Dimensionless coordinates. 2.6. Summary -- 3. Numerical solution of the model system. 3.1. Finite differences. 3.2. Time evolution: discretising Fick's second law. 3.3. The Thomas algorithm. 3.4. Simulation procedure. 3.5. Checking results. 3.6. Performance and runtime analysis -- 4. Diffusion-only electrochemical problems in one-dimensional systems. 4.1. Unequally spaced grids. 4.2. Finite electrode kinetics. 4.3. Unequal diffusion coefficients. 4.4. Other one-dimensional electrode geometries -- 5. First-order chemical kinetic mechanisms. 5.1. First-order EC[symbol] mechanism: basic concepts. 5.2. First-order catalytic mechanism: coupled equation systems. 5.3. LU decomposition and extended Thomas algorithm. 5.4. First-order EC[symbol] mechanism: including a third species. 5.5. Multiple-electron transfer processes. 5.6. Heterogeneous chemical processes -- 6. Second-order chemical kinetic mechanisms. 6.1. Second-order catalytic mechanism: the Newton-Raphson method. 6.2. Multiple-electron transfers: adaptive spatial grids. 6.3. Adsorption -- 7. Electrochemical simulation in weakly supported media. 7.1. The Nernst-Planck-Poisson problem. 7.2. Weakly supported cyclic voltammetry and chronoamperometry -- 8. Hydrodynamic voltammetry. 8.1. Rotating disc electrode. 8.2. Channel electrode -- 9. Two-dimensional systems: microdisc electrodes. 9.1. Microdisc electrodes: the model. 9.2. Numerical solution. 9.3. Implementation. 9.4. Microband electrodes -- 10. Heterogeneous surfaces. 10.1. Arrays of microdisc electrodes. 10.2. Microband arrays. 10.3. Porous electrodes. 10.4. Conclusion.
520			\|a This is the first textbook in the field of electrochemistry that will teach experimental electrochemists how to carry out simulation of electrode processes. Processes at both macro- and micro-electrodes are examined and the simulation of both diffusion-only and diffusion-convection processes are addressed. The simulation of processes with coupled homogeneous kinetics and at microelectrode arrays are further discussed. Over the course of the book the reader's understanding is developed to the point where they will be able to undertake and solve research-level problems. The book leads the reader through from a basic understanding of the principles underlying electrochemical simulation to the development of computer programs which describe the complex processes found in voltammetry. This is the third book in the "Understanding Voltammetry" series, published with Imperial College Press and written by the Compton group. Other books in the series include "Understanding Voltammetry", written by Richard G. Compton with Craig Banks and also "Understanding Voltammetry: Problems and Solutions" (2012) written by Richard G. Compton with Christopher Batchelor-McAuley and Edmund Dickinson. These are and continue to be successful textbooks for graduates in electrochemistry and electroanalytical studies
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contents	1. Introduction. 1.1. Electrochemical systems. 1.2. Voltammetric techniques. 1.3. Finite difference methods. 1.4. Voltammetry: a selected bibliography -- 2. Mathematical model of an electrochemical system. 2.1. Cyclic voltammetry. 2.2. Diffusion: Fick's second law. 2.3. Boundary conditions. 2.4. Current. 2.5. Dimensionless coordinates. 2.6. Summary -- 3. Numerical solution of the model system. 3.1. Finite differences. 3.2. Time evolution: discretising Fick's second law. 3.3. The Thomas algorithm. 3.4. Simulation procedure. 3.5. Checking results. 3.6. Performance and runtime analysis -- 4. Diffusion-only electrochemical problems in one-dimensional systems. 4.1. Unequally spaced grids. 4.2. Finite electrode kinetics. 4.3. Unequal diffusion coefficients. 4.4. Other one-dimensional electrode geometries -- 5. First-order chemical kinetic mechanisms. 5.1. First-order EC[symbol] mechanism: basic concepts. 5.2. First-order catalytic mechanism: coupled equation systems. 5.3. LU decomposition and extended Thomas algorithm. 5.4. First-order EC[symbol] mechanism: including a third species. 5.5. Multiple-electron transfer processes. 5.6. Heterogeneous chemical processes -- 6. Second-order chemical kinetic mechanisms. 6.1. Second-order catalytic mechanism: the Newton-Raphson method. 6.2. Multiple-electron transfers: adaptive spatial grids. 6.3. Adsorption -- 7. Electrochemical simulation in weakly supported media. 7.1. The Nernst-Planck-Poisson problem. 7.2. Weakly supported cyclic voltammetry and chronoamperometry -- 8. Hydrodynamic voltammetry. 8.1. Rotating disc electrode. 8.2. Channel electrode -- 9. Two-dimensional systems: microdisc electrodes. 9.1. Microdisc electrodes: the model. 9.2. Numerical solution. 9.3. Implementation. 9.4. Microband electrodes -- 10. Heterogeneous surfaces. 10.1. Arrays of microdisc electrodes. 10.2. Microband arrays. 10.3. Porous electrodes. 10.4. Conclusion.
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publisher	Imperial College Press,
record_format	marc
spelling	Compton, R. G. http://id.loc.gov/authorities/names/n84239456 Understanding voltammetry : simulation of electrode processes / by Richard G. Compton (Oxford University, UK, & University of Murcia, Spain), Eduardo Laborda (Oxford University, UK), & Kristopher R. Ward (Oxford University, UK). [London?] : Imperial College Press, 2013. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. 1. Introduction. 1.1. Electrochemical systems. 1.2. Voltammetric techniques. 1.3. Finite difference methods. 1.4. Voltammetry: a selected bibliography -- 2. Mathematical model of an electrochemical system. 2.1. Cyclic voltammetry. 2.2. Diffusion: Fick's second law. 2.3. Boundary conditions. 2.4. Current. 2.5. Dimensionless coordinates. 2.6. Summary -- 3. Numerical solution of the model system. 3.1. Finite differences. 3.2. Time evolution: discretising Fick's second law. 3.3. The Thomas algorithm. 3.4. Simulation procedure. 3.5. Checking results. 3.6. Performance and runtime analysis -- 4. Diffusion-only electrochemical problems in one-dimensional systems. 4.1. Unequally spaced grids. 4.2. Finite electrode kinetics. 4.3. Unequal diffusion coefficients. 4.4. Other one-dimensional electrode geometries -- 5. First-order chemical kinetic mechanisms. 5.1. First-order EC[symbol] mechanism: basic concepts. 5.2. First-order catalytic mechanism: coupled equation systems. 5.3. LU decomposition and extended Thomas algorithm. 5.4. First-order EC[symbol] mechanism: including a third species. 5.5. Multiple-electron transfer processes. 5.6. Heterogeneous chemical processes -- 6. Second-order chemical kinetic mechanisms. 6.1. Second-order catalytic mechanism: the Newton-Raphson method. 6.2. Multiple-electron transfers: adaptive spatial grids. 6.3. Adsorption -- 7. Electrochemical simulation in weakly supported media. 7.1. The Nernst-Planck-Poisson problem. 7.2. Weakly supported cyclic voltammetry and chronoamperometry -- 8. Hydrodynamic voltammetry. 8.1. Rotating disc electrode. 8.2. Channel electrode -- 9. Two-dimensional systems: microdisc electrodes. 9.1. Microdisc electrodes: the model. 9.2. Numerical solution. 9.3. Implementation. 9.4. Microband electrodes -- 10. Heterogeneous surfaces. 10.1. Arrays of microdisc electrodes. 10.2. Microband arrays. 10.3. Porous electrodes. 10.4. Conclusion. This is the first textbook in the field of electrochemistry that will teach experimental electrochemists how to carry out simulation of electrode processes. Processes at both macro- and micro-electrodes are examined and the simulation of both diffusion-only and diffusion-convection processes are addressed. The simulation of processes with coupled homogeneous kinetics and at microelectrode arrays are further discussed. Over the course of the book the reader's understanding is developed to the point where they will be able to undertake and solve research-level problems. The book leads the reader through from a basic understanding of the principles underlying electrochemical simulation to the development of computer programs which describe the complex processes found in voltammetry. This is the third book in the "Understanding Voltammetry" series, published with Imperial College Press and written by the Compton group. Other books in the series include "Understanding Voltammetry", written by Richard G. Compton with Craig Banks and also "Understanding Voltammetry: Problems and Solutions" (2012) written by Richard G. Compton with Christopher Batchelor-McAuley and Edmund Dickinson. These are and continue to be successful textbooks for graduates in electrochemistry and electroanalytical studies Voltammetry Textbooks. Electrochemistry Textbooks. SCIENCE Chemistry Physical & Theoretical. bisacsh Electrochemistry fast Voltammetry fast Textbooks fast Laborda, Eduardo, 1983- https://id.oclc.org/worldcat/entity/E39PCjJjwQTYXwPvXjdvgFhwfm http://id.loc.gov/authorities/names/n2013061786 Ward, Kristopher R. http://id.loc.gov/authorities/names/n2013061790 has work: Understanding voltammetry (Text) https://id.oclc.org/worldcat/entity/E39PCFPvDHB8mmfdbkwFvDc8fq https://id.oclc.org/worldcat/ontology/hasWork Print version: Compton, R.G. Understanding voltammetry 9781783263233 (DLC) 2013040625 (OCoLC)861120157 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=670627 Volltext
spellingShingle	Compton, R. G. Understanding voltammetry : simulation of electrode processes / 1. Introduction. 1.1. Electrochemical systems. 1.2. Voltammetric techniques. 1.3. Finite difference methods. 1.4. Voltammetry: a selected bibliography -- 2. Mathematical model of an electrochemical system. 2.1. Cyclic voltammetry. 2.2. Diffusion: Fick's second law. 2.3. Boundary conditions. 2.4. Current. 2.5. Dimensionless coordinates. 2.6. Summary -- 3. Numerical solution of the model system. 3.1. Finite differences. 3.2. Time evolution: discretising Fick's second law. 3.3. The Thomas algorithm. 3.4. Simulation procedure. 3.5. Checking results. 3.6. Performance and runtime analysis -- 4. Diffusion-only electrochemical problems in one-dimensional systems. 4.1. Unequally spaced grids. 4.2. Finite electrode kinetics. 4.3. Unequal diffusion coefficients. 4.4. Other one-dimensional electrode geometries -- 5. First-order chemical kinetic mechanisms. 5.1. First-order EC[symbol] mechanism: basic concepts. 5.2. First-order catalytic mechanism: coupled equation systems. 5.3. LU decomposition and extended Thomas algorithm. 5.4. First-order EC[symbol] mechanism: including a third species. 5.5. Multiple-electron transfer processes. 5.6. Heterogeneous chemical processes -- 6. Second-order chemical kinetic mechanisms. 6.1. Second-order catalytic mechanism: the Newton-Raphson method. 6.2. Multiple-electron transfers: adaptive spatial grids. 6.3. Adsorption -- 7. Electrochemical simulation in weakly supported media. 7.1. The Nernst-Planck-Poisson problem. 7.2. Weakly supported cyclic voltammetry and chronoamperometry -- 8. Hydrodynamic voltammetry. 8.1. Rotating disc electrode. 8.2. Channel electrode -- 9. Two-dimensional systems: microdisc electrodes. 9.1. Microdisc electrodes: the model. 9.2. Numerical solution. 9.3. Implementation. 9.4. Microband electrodes -- 10. Heterogeneous surfaces. 10.1. Arrays of microdisc electrodes. 10.2. Microband arrays. 10.3. Porous electrodes. 10.4. Conclusion. Voltammetry Textbooks. Electrochemistry Textbooks. SCIENCE Chemistry Physical & Theoretical. bisacsh Electrochemistry fast Voltammetry fast
title	Understanding voltammetry : simulation of electrode processes /
title_auth	Understanding voltammetry : simulation of electrode processes /
title_exact_search	Understanding voltammetry : simulation of electrode processes /
title_full	Understanding voltammetry : simulation of electrode processes / by Richard G. Compton (Oxford University, UK, & University of Murcia, Spain), Eduardo Laborda (Oxford University, UK), & Kristopher R. Ward (Oxford University, UK).
title_fullStr	Understanding voltammetry : simulation of electrode processes / by Richard G. Compton (Oxford University, UK, & University of Murcia, Spain), Eduardo Laborda (Oxford University, UK), & Kristopher R. Ward (Oxford University, UK).
title_full_unstemmed	Understanding voltammetry : simulation of electrode processes / by Richard G. Compton (Oxford University, UK, & University of Murcia, Spain), Eduardo Laborda (Oxford University, UK), & Kristopher R. Ward (Oxford University, UK).
title_short	Understanding voltammetry :
title_sort	understanding voltammetry simulation of electrode processes
title_sub	simulation of electrode processes /
topic	Voltammetry Textbooks. Electrochemistry Textbooks. SCIENCE Chemistry Physical & Theoretical. bisacsh Electrochemistry fast Voltammetry fast
topic_facet	Voltammetry Textbooks. Electrochemistry Textbooks. SCIENCE Chemistry Physical & Theoretical. Electrochemistry Voltammetry Textbooks
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=670627
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