Electroanalysis, analytical chemistry

Murray, R.W., Ewing, A.G., and Durst, R.A. 1987. Chemically modified electrodes molecular design for electroanalysis. Analytical Chemistry 59, 379A-390A. 

W. F. Smyth (Editor), Electroanalysis in Hygiene, Environmental, Clinical and Pharmaceutical Chemistry Proceedings of a Conference Organized by the Electroanalytical Group of the Chemical Society, London, 17-20 April, 1979, (Analytical Chemistry Symposia Series, Vol. 2), Elsevier, Amsterdam, 1980. 

This book is a part of the series. Analytical Techniques in the Sciences (AnTS). Please assume from the outset that this is neither a textbook of analytical chemistry or electrochemistry, nor is it a textbook of their hybrid, electroanalysis . There are many extremely good texts on these topics already available (e.g. see the Bibliography for a list). There is simply no need for a new textbook if a new one was required, then this would not be it. 

Electroanalysis is the science of carrying out analytical chemistry by the use of electrochemistry. At the heart, the two electroanalytical observables are the potential (also called the voltage) and the current 1 (or its integral, with respect to time, of the charge Q). The potential is determined at zero current, while the current is determined as a function of careful voltage manipulation. The current density i and charge density q are also defined (e.g. see equation (1.1)). 

Brett, C. M. A. and Brett, A. M. O., Electroanalysis, Oxford University Press, Oxford, 1998. This text is a recent addition to the Oxford Primer Series and, as such, is affordable and good value for money. Although not long, it does provide a clear and concise introduction to electroanalysis. Probably on the difficult side for many undergraduates of analytical chemistry, but nevertheless is still worth a look. 

Riley, T. and Tomlinson, C., Principles of Electroanalytical Methods, ACOL Series, Wiley, Chichester, 1987. This is the first of the three Analytical Chemistry by Open Learning (ACOL) texts on electroanalysis (all of which are now out of print), and the lesser of the three in terms of quality, so few of today s readers will bother to search its pages now. It is nevertheless quite a good introduction to the field, although its age is showing quite badly. The lack of an index, together with other period features, detract from an otherwise readable book. 

KiUard AJ, Sequeira M, Diamond D, Smyth MR. Electroanalysis and biosensors in clinical chemistry. In Meyers RA (ed). Encyclopedia of analytical chemistry. Chichester John Wiley Sons, 2000 1257 90. 

Ruhr-University Bochum, Analytical Chemistry - Electroanalysis and Sensors, Universitatsstr. 150, D-44780 Bochum, Germany wolfgang. schuhmann rub.de... 

With respect to enhanced sensitivity and selectivity in electroanalysis, the study of CMEs has been the most popular research area with studies ongoing in many electrochemistry laboratories. There is now a large body of research articles published in this field. This article outlines the latest achievements in CMEs, emphasizing applications in analytical chemistry. Based on the progress of modification, this article is... 

Figure 3 Some possible routes for the covalent modification of carbon surface using (A) amino, (B) diazonium, and (C) acrylacetate based compounds. (Reproduced with permission from Zen JM, Kumar AS, and Tsai DM (2003) Recent updates of chemically modified electrodes in analytical chemistry. Electroanalysis 15 1073-1087 Wiley-VCH.)...

Li, C.M. and Hu, W.H. (2013) Electroanalysis in micro- and nano-scales. Journal of Electro-analytical Chemistry, 688, 20-31. 

J. P. Hart Electroanalysis of Biologically Important Compounds," in Analytical Chemistry. Ellis Harwood Series. 

Escarpa, A. (2012) Food electroanalysis sense and simplicity. Chem. Rec., 12,72-91. Serra, B., Reviejo, A.J. and Pingarron, JM. (2007) in Electrochemical Sensor Analysis, Wilson Wilson s Comprehensive Analytical Chemistry, Chapter 13 (eds S. Alegret and A. Merkogi), Elsevier, Amsterdam, pp. 257-258. 

Chen Q, Wang J, Rayson G, Tian B, Lin Y (1993) Anal Chem 65 251-254 D Annibale A, Regoli R, Sangiorgio P, Ferri T (1999) Electroanalysis 11 505 Darder M, Takada K, Pariente F, Lorenzo E, Abrufta HD (1999) Anal Chem 71 5530-5537 Diamond D, Svehla G, Seward EM, McKervey MA (1988) Anal Chim Acta 204 223-231 Freiser H (1980) Coated wire ion-selective electrodes. In Freiser H (ed.) Ion-Selective Electrodes in Analytical Chemistry, vol. 2. Plenum, New York, pp 85-105 Gibson TD, Hulbert JN (1993) Anal Chim Acta 279 185-192 GuUbault GG, Montalvo JG (1969) Anal Lett 2 283-293 Heller A (1990) Accounts Chem Res 23 128-134... 

The main centers and areas of work were identified from the mid-1960s. Gennadiy Konstantinovich Budnikov (Ph.D. 1962, Polarographic investigatirMi of semi- and thiosemicarbazones under Kitaev later his works were also oti organic polarography [101-103]) went from KIOKH to the Department of Analytical Chemistry, KGU, and focused rai electroanalysis. On the other hand, Yuriy... 

Hulanicki A, Gains Z (2002) Professor Wiktor Kemula and his significance in analytical chemistry and electroanalysis. Quart J Hist Sci Technol 47 33-46... 

Economou, A., Bismuth-film electrodes recent developments and potentialities for electroanalysis. Trends in Analytical chemistry, 2005. 24 p. 334-340. 

Vyskocil, V. and J. Barek, Mercury Electrodes-Possibilities and Limitations in Environmental Electroanalysis. Critical Reviews in Analytical Chemistry, 2009. 59(3) p. 173-188. 

In analytical chemistry, and indeed electroanalysis, a calibration curve is produced so that analysts can determine how their system responds towards the target analyte under investigation. In-particular the calibration curve gives the electrochemist a benchmark of their electroanalytical system, such as a graphene modified electrode towards sensing analyte X. 

Zen JM, Kumar AS, Tsai D-M. Recent updates of chemically modified electrodes in analytical chemistry. Electroanalysis 2003 15 1073-1087. 

Zuman P (2000) Role of mercury electrodes in contemporary analytical chemistry. Electroanalysis 12 1187-1194... 

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