Modern advances in electrochemical methods

  • Rema Matakova al-Farabi Kazakh National University
Keywords: Nanoanalytics, the potential of the electrode, components, methods

Abstract

This paper considers the gradual development of the nature of the electrode material in accordance with the requirements of electroanalysis. Showed a significant effect on reducing the limit determined by the content of the analyte in the track analysis of modern, efficient methods of concentrating on the electrode. The features and advantages of the new aspects of electrochemical determinations in the analysis of multi-component objects - nano analysis and non-linear voltammetry.

References

1. Budnikov G.K. Determination of trace amounts of substances as a problem of analytical chemistry [Opredelenie sledovykh kolichestv veshchestv kak problema analiticheskoy khimii]. Soros obraz. j. 2000. No. 3. P. 3.

2. Kozlowskiy M.G. Mercury and amalgams in electrochemical methods of analysis [Rtut i amalgamy v elektrokhimicheskich metodakh analiza]. Alma-Ata, 1956. 420 p.

3. Kozlowskiy M.T., Zebreva A.I. Gladyshev V.P. Amalgams and their application [Amalgamy i ikh primenenie]. Moscow, 1971. 356 p.

4. Brainina K.Z., Neiman Y.Y., Slepushkin V.V. Contrail electroanalytical methods [Inversionnye elektroanaliticheskie metody]. Moscow, 1988. P. 56.

5. Budnikov G.K., Yevtyugin G.A., Maystrenko V.N. Modified electrodes in voltammetry, chemistry, biology and medicine [Modifitsirovannye elektrody v voltamperometrii, khimii, biologii i meditsine]. Moscow, 2010. P. 125.

6. Budnikov G.K., Maystrenko V.N., Murinov Y.I. Voltammetry with modified ultramicroelectrodes [Voltamperometriya s modifitsirovannymi ultramikroelektrodami]. Moscow, 1994. 240 p.

7. Brainina K.Z., Shalygina Z.V., Stozhko N.Y. Modified thick-film electrode for the determination of electropositive metals [Modifitsirovannyi tolstoplenochnyi elektrod dkya opredeleniya elektropolozhitelnykh metallov]. Proceeding of Rus. Conf. "Actual problems of analytical chemistry". V. 2. 2002. P. 123.

8. Brainina K.Z., Stozhko N.Y., Aleshina L.V., Lipunova G.N. Mercury-free electrode for the determination of amalgam forming elements by the method of contrail voltammetry [Bezrtutnyi elektrod dlya opredeleniya amalgamoobrazuyushchikh elementov metodom inversionnoy voltamperometrii] J. of anal. chem. 2003. V. 58. No. 10. P. 1078-1084.

9. Brainina K.Z. Contrail voltammetry of solid phases [Inversionnaya voltamperometriya tverdykh faz]. Moscow, 1972. 192 p.

10. Brainina K.Z., Neiman Y.Y., Slepushkin V.V. Contrail electroanalytical methods [Inversionnye elektroanaliticheskie metody]. Moscow, 1988. 240 p.

11. Zolotov Y.A. Nanoanalytics. [Nanoanalitika]. J. of anal. chem. 2010. V. 65. No. 12. P. 1235-1236.

12. Shtykov S.N. About the concept of nanoanalytics [O kontseptsii nanoanalitiki]. Proceedings of XIX Mendeleev Congress on General and Applied Chemistry. Volgograd, 2011. V. 1. 307 p.

13. Shtykov S.N., Russanova T.Y. Nanomaterials and nanotechnology in chemical and biochemical sensors: opportunities and applications [Nanomaterialy i nanotekhnologii v khimicheskikh i biologicheskikh sensorakh: vozmozhnosti i oblasti primeneniya]. Rus. chem. j. 2008. V. LII. No. 2. P. 92-112.

14. Abdullin T.I., Nikitina I.I., Ishmukhametova D.G., Budnikov G.K., Konovalov O.A., Salakhov M.K. Electrodes modified by carbon nanotubes for electrochemical DNA sensors [Elektrody, modifitsirovannye uglerodnymi nanotrubkami dlya elektrokhimicheskikh DNK-sensorov]. J. of anal. chem. 2007. V. 62. No. 6. P. 667-671.

15. Wang J., Li M., Shi Z., Li N., Gu Z. Electroanalysis. 2004. V. 16. P. 140. Glazyrina Y.AY, Kozitsina A.N. Brainina K.Z. Electrochemical detection of pathogens in biological and natural objects on the basis of magnetic nanoparticles [Elektrokhimicheskoe opredelenie patogennykh mikroorganizmov v biologicheskikh i prirodnykh obektakh na osnove magnitnykh nanochastits]. Russian Analysts: Proceedings of 3rd Rus. conf. with international participation dedicated to the 175th anniversary of D.I.Mendeleev. Krasnodar, 2009. P. 385.

16. Kozitsina A.N., Brainina K.Z. Electrochemical methods in enzyme-free chemical and immunosensor [Elektrokhimicheskie metody v besfermentnykh khimicheskikh i immunosensorakh]. Analytical Chemistry and the School of Young Scientists. - Moscow, 2010. Proceedings. Moscow: MISS, 2010. P. 149.

17.Vlasov Y.G., Legin A.V., Rudnitskaya A.M. Electronic tongue - a system of chemical sensors for the analysis of aqueous media [Elektronnyi yazyk – sistema khimicheskikh sensorov dlya analiza vodnykh sred]. Rus. chem. j. 2008. V. LII. No. 2. P. 101-112.

18. Vlasov Y.G., Legin A.V., Rudnitskaya A.M., Natal K.D., Amiko A.D. Multisensor system using an array of chemical sensors and artificial neural networks ("electronic tongue" for the quantitative analysis of multi-component aqueous solutions) [Multisensornaya sistema s ispolzovaniem massiva khimicheskikh sensorov i iskusstvennykh neironnykh setei (“elektronnyi yazyk” dlya kolichestvennogo analiza mnogokomponentnykh vodnykh rastvorov]. J. of appl. chem., 1996. V. 69. No. 6. P. 958-1185.

19. Kuchmenko G.A., Lissitskaya R.P., Golovanova V.A., Arsenova M.S. Detection of synthetic ingredients in food matrices using a system of "piezoelectron nose" [Obnaruzhenie sinteticheskikh komponentov v pishchevykh matritsakh s primeneniem sistemy “pezoelektronnyi nos”]. J. of anal. chem. 2009. 64. No. 4. P. 352-359.

Published
2013-09-14
How to Cite
Matakova, R. (2013). Modern advances in electrochemical methods. Chemical Bulletin of Kazakh National University, 72(4), 89-94. https://doi.org/https://doi.org/10.15328/chemb_2013_489-94

Most read articles by the same author(s)