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Biological Electrochemistry, Volume I is a result of a series of lectures given regarding the electrochemistry of small and large organic and inorganic molecules and how electrochemical information helps in understanding some of the biological redox reactions of these systems. This volume ultimately focuses on the electrochemistry of small and macromolecular organic compounds. This book is divided into seven chapters where each focuses on a particular organic compound. These compounds are quinones, catecholamines, phenothiazines, ascorbic acid, purines, vitamin B12 and related compounds, and proteins. Each chapter starts with a brief introduction to the compounds and then its structure and electrochemistry aspect. The last chapter gives a detailed discussion on different kinds of proteins and their electrochemistry aspects. This volume will be of help to students as well as electrochemists, biochemists, biologists, and other scientists in the field of biotechnology.
Using a molecular approach, it offers a concise and critical discussion of the latest applications of voltammetry to identify and determine biologically significant molecules such as drugs, pollutants, neurotransmitters, food additives and contaminants. Includes techniques on square wave and stripping voltammetry, differential pulse polarography, ion and high performance liquid chromatography, electrochemical detection coupled with flow injection analysis, electrochemical immunoassay and amperometric biosensors.
This volume is ba. sed on the presentations gi ven at the ElectroFinnAnalysis conference held on J une 6-9, 1988 in Turku-Äbo, Finland. This event was the second in a series of electroanalytical conferences. The first was held in Ireland 1986 and the next will be held in Spain 1990. The aim of these conferences is tobring tagether scientists who use electroanalytical methods in their research. This is also reflected in the disposition of this volume where instrumentation and applications from the different fields have their own chapters. The editors are grateful to Mr. Johan Nyman, Mr. Kent Westerbolm and Mr. Markku Lehto for their technical assistance during the editorial work of this volume. Ari Ivaska Andrzej Lewenstam Ralf Sara V CONTENTS lntroduction Ari Ivaska ELECTROCHEMICAL INSTRUMENTATION AND METHODS New Instrumental Approaches to Fast Electro-Chemistry at Ultramicroelectrodes ... 5 Larry R. Faulkner, Michael R. Walshand Chuanjing Xu Photoelectroanalytical Chemistry - Methods and Instrumentation ... 15 J ouko J. Kaukare Experiences of an On-Line Fourier Transform Faradaic Admittance Measurement (FT-FAM) SystemBasedon Digital Signal Processors ... ... 21 Sten 0. Engblom, Mikael Wasberg, Johan Bobacka and Ari Iva. ska Processor-Controlled Fast Potentiostat . '. . . 31 J. Kaukare and J. Lukka. ri Smoothing of AC Polaragraphie Data by FFT Filtering . ' ... 37 J oha. n Bobacka. a. nd Ari Jvaska Reverse Pulse Voltammetry at Microelectrodes. New Possibilities in Analytical Chemistry ... 47 Zbigniew Stojek Multiple Sensor Arrays: Advantages and lmplications 51 Dermot Diamond Simultaneaus ESR-Electrochemical Investigations at Solid Electrodcs.
This volume provides a practical, intuitive approach to electroanalytical chemistry, presenting fundamental concepts and experimental techniques without the use of technical jargon or unnecessarily extensive mathematics. This edition offers new material on ways of preparing and using microelectrodes, the processes that govern the voltammetric behavior of microelectrodes, methods for characterizing chemically modified electrodes, electrochemical studies at reduced temperatures, and more. The authors cover such topics as analog instrumentation, overcoming solution resistance with stability and grace in potentiostatic circuits, conductivity and conductometry, electrochemical cells, carbon electrodes, film electrodes, microelectrodes, chemically modified electrodes, mercury electrodes, and solvents and supporting electrolytes.
This volume provides a practical, intuitive approach to electroanalytical chemistry, presenting fundamental concepts and experimental techniques without the use of technical jargon or unnecessarily extensive mathematics. This edition offers new material on ways of preparing and using microelectrodes, the processes that govern the voltammetric behavior of microelectrodes, methods for characterizing chemically modified electrodes, electrochemical studies at reduced temperatures, and more. The authors cover such topics as analog instrumentation, overcoming solution resistance with stability and grace in potentiostatic circuits, conductivity and conductometry, electrochemical cells, carbon electrodes, film electrodes, microelectrodes, chemically modified electrodes, mercury electrodes, and solvents and supporting electrolytes.
Explains how to use electroanalytic techniques to measure biologically important compounds in foods, pharmaceutical products, and biological matrices. Reviews the electrochemical behavior of molecules and suggests how to exploit it for quantitative analysis. Describes the relative merits of such techniques as alternating current and differential pulse polarography/voltammetry, cyclic voltammetry, aperometry, flow injection analysis with electrochemical detection, and liquid chromatography. Addressed to analytic chemists in a variety of industries. Annotation copyrighted by Book News, Inc., Portland, OR
This Fourth Edition has been thoroughly revised and updated to take account of international developments in pharaceutical chemistry and to maintain the position of Practical Pharmaceutical Chemistry as the leading University textbook in the field of pharaceutical analysis and quality control. Part 2 deals with physical techniques of analysis for more advanced courses. It gives a broad coverage of the most widely used techniques in quantative chromatography. The treatmentof spectroscopy and radiopharmaceuticals has also been increased. Thre are additional chapters on the contribution and role of physical methods of analysis in the various stages of drug development; and a series of workshop-style exercises, illustrating the application of spectroscopic techniques in structural elucidation and verification of identity. Users of the two volumes will welcome the internationalisation of the text, with examples based on drugs and dosage forms that are widespread and in commun use in human medicine in Britain, continental Europe and North America. Additionally there is some reference to veterinary pharmaceuticals where they provide appropriate examples.
Trends in Analytical Chemistry, Volume 3 focuses on developments in analytical chemistry, including the adoption of automation in laboratory processes, chromatography, and flow analysis. The selection first underscores the effect of automation on the operations of analytical laboratories and techniques for the automated optimization of HPLC separations. Topics include initial requirements, window diagrams, and chemometric approaches. The text then ponders on generation of statistical tables by microcomputer; enzyme electrodes for continuous in-vivo monitoring; and enantiomeric analysis of the common protein amino acids by liquid chromatography. The publication takes a look at sample preparation for the analysis of heavy metals in foods and application of ion-selective electrodes in flow analysis, including dry ashing, acid extraction, and ion-selective electrodes in flowing systems. The text then examines trends in laboratory information management systems; zone electrophoresis in open-tubular capillaries; and using computers to interpret IR spectra of complex molecules. The selection is a valuable source of data for readers interested in the developments in analytical chemistry.