New research directions in the development of analytical chemistry
Abstract
The article shows that discovering nanoscale elements made it possible to synthesize new chemical compounds without chemical reaction and defined the basis of effective development of nanoanalytical chemistry in the past two decades.
The article focuses on the prospective development of bioanalytical chemistry, based on reagentless sensory methods of analysis of biochemical processes to cure fast dangerous infections of the century.
Unusual opportunity of development of «green» chemistry in the direction of the analytical control of production and the environment, eliminating harmful emissions into the atmosphere through the use of unexpected properties of ionic liquids have been shown.
References
1 Zolotov YA (2010) J Anal Chem+ 65:1207-1208. (In Russian). http://dx.doi.org/10.1134/s1061934810120014
2 Budnikov GK, Shirokova VI (2012) "Nano" term in electroanalysis – fashionable prefix or a new stage of development [Termin "nano" v elektroanalize – modnaya pristavka ili novyy etap razvitiya]. Proceedings of 8-th All-Russian conference on electrochemical methods of analysis [Materialy 8-oy Vserossiyskoy konferentsii po elektrokhimicheskim metodam analiza], Ufa, Russia. P.7. (In Russian)
3 Shtykov SN, Russanova TY (2008) Russ J Gen Chem+ 52:92.
4 Shtykov SN (2011) On the concept of nanoanalytics [O kontseptsii nanoanalitiki]. Proceeding of XIX Mendeleyev meeting on general and applied chemistry [Materialy XIX Mendeleyevskogo s’yezda po obshchey i prikladnoy khimii], Volgograd, Russia. P.301. (In Russian)
5 Varcacel M, Simonet BM, Cardens S (2008) Anal Bioanal Chem 391:1881-1887. http://dx.doi.org/10.1007/s00216-008-2130-9
6 Stykov SN (2010) Modern condition and prospective of nanoanalytics [Sovremennoye sostoyaniye i perspektivy nanoanalitiki]. Proceedings of the 1st meeting of analysts “Analytical chemistry – new methods and possibilities [Materialy 1 syezda analitikov “Analiticheskaya khimia – novye metody i vozmozhnosti”], Moscow, Russia. P.15. (In Russian)
7 Stykov SN (2013) Modern condition and tendencies of the development of nanoanalytics and system analysis [Sovremennoye sostoyaniye i tendentsii razvitiya nanoanalitiki i analitiki sistem]. Proceedings of the 2nd meeting of analysts [Materialy 2 syezda analitikov], Moscow, Russia. P.177. (In Russian)
8 Abdullin TI, Nikitina II, Ishmukhametov DG, Budnikov GK, Konovalova OA, Salakhov MK (2007) J Anal Chem+ 62:599-603. (In Russian). http://dx.doi.org/10.1134/s1061934807060184
9 Budnikov GK, Yevtyugin GA, Maystrenko VN (2010) Modified electrodes for voltammetry in chemistry, biology and medicine [Modifitsirovannyye elektrody dlya vol'tamperometrii v khimii, biologii i meditsine]. “BINOM. Knowledge laboratory”, Moscow, Russia. (In Russian). P.194
10 Krivenko AG, Komarova NS (2008) Russ Chem Rev 77:927-943. (In Russian). http://dx.doi.org/10.1070/rc2008v077n11abeh003797
11 Evtyugin GA (2011) J Anal Chem+ 66:1029-1034. (In Russian). http://dx.doi.org/10.1134/s1061934811110062
12 Dzantiev BB (2010) Biochemical methods of analysis [Biokhimicheskiye metody analiza]. Nauka, Moscow, Russia. (In Russian). ISBN 978-5-02-036702-9
13 Budnikov GK, Yevtyugin GA (2013) Biosensors: problems of development and growth prospects [Biosensory: problemy razvitiya i perspektivy rosta]. Proceedings of the 2nd meeting of analysts [Materialy 2 syezda analitikov], Moscow, Russia. P.18.
14 Osina MA, Kiselev GA, Bogdanovskaya VA, Yaminskii IV (2009) Russ J Electrochem+ 45:887-894. (In Russian). http://dx.doi.org/10.1134/s1023193509080084
15 Kozitsina AN, Braynina KZ (2010) Two aspects of the use of electrochemical methods in sensors for medical diagnostics [Dva aspekta primeneniya elektrokhimicheskikh metodov v sensorakh dlya meditsinskoy diagnostiki]. Proceedings of the 1st meeting of analysts [Materialy 1 syezda analitikov], Moscow, Russia. P.149.
16 Budnikov GK (2011) J Anal Chem-USSR+ 66:1228. (In Russian)
17 Evtyugin GA, Budnikov GK, Porfirova AV (2008) Russ J Gen Chem 78:2489-2506. (In Russian). http://dx.doi.org/10.1134/s107036320812030x
18 Bochenkov VE, Sergeev GB (2007) Russ Chem Rev 76:1013-1022. (In Russian). http://dx.doi.org/10.1070/rc2007v076n11abeh003735
19 Abdullin TI, Nikitina II, Ishmukhametov DG, Budnikov GK, Konovalova OA, Salakhov MK (2007) J Anal Chem+ 62:599-603. (In Russian). http://dx.doi.org/10.1134/s1061934807060184
20 Tartakovskii VA (2009) Herald of the Russian Academy of Sciences 3:229-237. (In Russian)
21 Kustov LM, Beletskaya IP (2004) Russ J Gen Chem 6:3-12. (In Russian)
22 Noda A, Hasan Susan MAB, Kudo K, Mitsushima S, Hayamizu K, Watanabe M (2003) J Phys Chem B 107:4024-4033. http://dx.doi.org/10.1021/jp022347p
23 Zolotov YA (2013) J Anal Chem+ 68:315. (In Russian)
24 Aslanov LA, Zakharov MA, Abramycheva NL (2005) Ionic liquids among the solvents [Ionnye zhidkosti v ryadu rastvoritelei]. Moscow State University, Moscow, Russia. (In Russian). ISBN 5-211-05057-6
25 Pletnev IV, Formanovskij AA, Smirnova SV, Torocheshnikova II, Khachatryan KS, Shvedene NV, Nemilova MY (2003) J Anal Chem+ 58:710-711. (In Russian)
26 De la Guardia M, Garrigues S (2012) Handbook of Green Analytical Chemistry. Wiley & Sons, Ltd., West Sussex, USA. ISBN 9780470972014
27 Ito Y, Nohira T (2000) Electrochim Acta 45: 2611-2622. http://dx.doi.org/10.1016/s0013-4686(00)00341-8
28 Shvedene NV, Chernyshov DV, Pletnev IV (2008) Russ J Gen Chem 78:2507-2520. (In Russian). http://dx.doi.org/10.1134/s1070363208120311
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