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Understanding Voltammetry
Considers how to go about designing, explaining and interpreting experiments centered around various forms of voltammetry (cyclic, microelectrode, hydrodynamic, and so on). This book gives introductions to the theories of electron transfer and of diffusion. It also introduces convection and describes hydrodynamic electrodes.
Electrode Potentials
This richly illustrated addition to the renowned Oxford Chemistry Primer series provides a comprehensive introduction to equilibrium electrochemistry. Dealing with electrode potentials and their applications, this primer focuses on understanding the foundations of electrochemistry and how it can be applied to practical problems. Key features:- Includes important information on a variety of subjects in electrochemistry including equilibrium constants, Gibbs Energy, enthalpy and entropy changes of chemical reactions, and activity coefficients- Extensive problems and worked examplesNew to this edition:- An introduction to batteries and fuel cells- Additional bibliographic notes on historical fo...
Research in Chemical Kinetics
This series of volumes aims to publish authoritative review articles on a wide range of exciting and contemporary topics in gas and condensed phase kinetics. Research in Chemical Kinetics complements the acclaimed series Comprehensive Chemical Kinetics, and is edited by the same team of professionals. The reviews contained in this volume are concise, topical accounts of specific research written by acknowledged experts. The authors summarize their latest work and place it in a general context. Particular strengths of the volume are the quality of the contributions and their topicality, and the rapid publication realized.
Understanding Voltammetry
Preface to the second edition -- Preface to the first edition - Introduction -- Mathematical model of an electrochemical system -- Numerical solution of the model system -- Diffusion-only electrochemical problems in one-dimensional systems -- First-order chemical kinetic mechanisms -- Second-order chemical kinetic mechanisms -- Electrochemical simulation in weakly supported media -- Hydrodynamic voltammetry -- Two-dimensional systems: microdisc electrodes -- Heterogeneous surfaces -- Stochastic electrochemistry.
Applications of Kinetic Modelling
Volume 37 is concerned with the use and role of modelling in chemical kinetics and seeks to show the interplay of theory or simulation with experiment in a diversity of physico-chemical areas in which kinetics measurements provide significant physical insight. Areas of application covered within the volume include electro- and interfacial chemistry, physiology, biochemistry, solid state chemistry and chemical engineering. A leading contributor to this general area has been Professor W. John Albery, FRS, to whom the contributors and editors dedicate this book.
Electrode Kinetics: Principles and Methodology
Volumes 26 and 27 are both concerned with reactions occurring at electrodes arising through the passage of current. They provide a comprehensive review of the study of electrode kinetics. The basic ideas and experimental methodology are presented in Volume 26 whilst Volume 27 deals with reactions at particular types of electrodes.Chapter 1 serves as an introduction to both volumes and is a survey of the fundamental principles of electrode kinetics. Chapter 2 deals with mass transport - how material gets to and from an electrode. Chapter 3 provides a review of linear sweep and cyclic voltammetry which constitutes an extensively used experimental technique in the field. Chapter 4 discusses a.c. and pulse methods which are a rich source of electrochemical information. Finally, chapter 5 discusses the use of electrodes in which there is forced convection, the so-called ``hydrodynamic electrodes''.
Understanding Voltammetry (Fourth Edition)
The power of electrochemical measurements in respect of thermodynamics, kinetics and analysis is widely recognised but the subject can be unpredictable to the novice even if they have a strong physical and chemical background, and most especially if they wish to pursue quantitative measurements. Accordingly, some significant experiments are perhaps wisely never attempted, while the literature is sadly replete with flawed attempts at rigorous voltammetry.This textbook considers how to go about designing, explaining and interpreting experiments centred on various forms of voltammetry (cyclic, microelectrode, hydrodynamic, etc.). The reader is assumed to have knowledge of physical chemistry equ...
Electroanalytical Methods
This laboratory book delivers hands-on advice to researchers in all fields of life and physical sciences already applying or intending to apply electro-analytical methods in their research. The authors represent in a strictly practice-oriented manner not only the necessary theoretical background but also substantial know-how on measurement techniques, interpretation of data, experimental setup and trouble shooting. The author and the editor are well-known specialists in their field.
Understanding Voltammetry
The power of electrochemical measurements in respect of thermodynamics, kinetics and analysis is widely recognized but the subject can be unpredictable to the novice even if they have a strong physical and chemical background, especially if they wish to pursue quantitative measurements. Accordingly, some significant experiments are perhaps wisely never attempted while the literature is sadly replete with flawed attempts at rigorous voltammetry.This textbook considers how to go about designing, explaining and interpreting experiments centered around various forms of voltammetry (cyclic, microelectrode, hydrodynamic, and so on). The reader is assumed to have a knowledge to Masters level of phy...
Physical, Electroanalytical, and Bioanalytical Electrochemistry
The papers included in this issue of ECS Transactions were originally presented in the symposium ¿Physical, Electroanalytical, and Bioanalytical Electrochemistry¿, held during the 216th meeting of The Electrochemical Society, in Vienna, Austria from October 4 to 9, 2009.
