Progress in enzyme and ion-selective electrodes
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Progress in enzyme and ion-selective electrodes

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Published by Springer-Verlag in Berlin, New York .
Written in English


  • Electrodes, Ion selective -- Congresses.,
  • Electrodes, Enzyme -- Congresses.,
  • Biochemistry -- Technique -- Congresses.,
  • Biomedical engineering -- Congresses.,
  • Electrochemistry -- Congresses.,
  • Electrodes -- Congresses.,
  • Enzyme tests -- Congresses.,
  • Ion exchange -- Congresses.

Book details:

Edition Notes

Includes bibliographies and index.

Statementedited by D.W. Lübbers ... [et al.].
ContributionsLübbers, D. W.
LC ClassificationsQP519.9.E43 M43 1980
The Physical Object
Paginationxii, 239 p. :
Number of Pages239
ID Numbers
Open LibraryOL4112528M
LC Control Number80027595

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Meeting on Theory and Application of Ion-Selective Electrodes in Physiology and Medicine ( Dortmund, Germany). Progress in enzyme and ion-selective electrodes. Berlin ; New York: Springer-Verlag, (OCoLC) Material Type: Conference publication: Document Type: Book: All Authors / Contributors: D W Lübbers. ISBN: OCLC Number: Description: 1 online resource (volumes) Contents: The Ability of the Peptide Backbone to Bind Anions as well as Cations --Implications for Peptide Carriers, Channels and Electrodes --New Ion-Selective Membranes --Microelectrodes for Novel Anions and their Application to Some Neurophysiological Problems - . An ion-selective electrode (ISE), also known as a specific ion electrode (SIE), is a transducer (or sensor) that converts the activity of a specific ion dissolved in a solution into an electrical voltage is theoretically dependent on the logarithm of the ionic activity, according to the Nernst -selective electrodes are used in analytical chemistry and biochemical. Ion-selective electrodes are widely used for non-destructive, rapid, sensitive and precise determination of many ions in a great variety of media and therefore, provide a powerful analytic tool. Since the appearance of the first edition of Professor Koryta's book in progress in the whole field of ion-selective electrodes has been rapid and Cited by:

Progress in Enzyme and Ion-Selective Electrodes | G. Eisenman, R. Margalit, K.-H. Kuo (auth.), Prof. Dr. Dietrich Werner Lübbers, Priv. Doz. Dr. Helmut Acker, Prof. The successful modification of the tips of a cellular microgripper into ion selective electrodes capable of sensing calcium ions at concentrations as low as 8x M is : Richard A Durst. ** Vol #2 ** ISBN # From the back cover: This book is designed to provide a comprehensive survey of the theory and the fundamentals of ion-selective electrodes and of passive membrane transport. The field is treated in depth and self-consistently, the entire discussion being based on a unified membrane model. In book: Encyclopedia of Analytical Science, pp principles of operation and analytical features of enzyme-ion selective electrodes. Some applications of these type of biosensors are.

These have been used successfully as ion-selective components in liquid membrane electrodes (10, 14). Today, for the potentiometric measurement of the activity of alkali- and alkaline earth metal cations, neutral carrier baged electrodes with selectivity for Li + (4, 28), Na + (5, 27), K + (17, 21), Ca 2+ (24, 30), and Ba 2+ (6) are by: 1. Ion Selective Electrode Theory Enzyme electrodes are based on the reaction of an enzyme reacting with a specific substrate, and the resultant product of this reaction (usually H+ or OH-) is detected by an electrode such as a pH electrode. Ion selective electrodes or ISE’s are commonly used in environmental, food and agriculture, power.   T.R. Crompton, in Determination of Metals in Natural Waters, Sediments and Soils, Ion-Selective Electrodes. Hulanicki et al. determined copper in natural water by means of a chalcocite ion-selective electrode. Gulens et al. used a copper ion-selective electrode in studies of the hydrolysis of copper(II). The copper ion-selective electrode has . Progress in the field of ion-selective membrane electrodes is viewed in terms of a dynamic interplay between advances in mechanistic understanding and the development of practical electrodes. Techniques used for the elucidation of glass, liquid, and crystal membrane electrode operation are discussed and possible mechanisms are considered.