Осуществлен синтез порошкообразных целлюлозных сорбентов, содержащих химически иммобилизованный тиосемикарбазид. Установлена возможность использования полученного сорбента для концентрирования кобальта(II), ртути(II), кадмия(II) при рН = 9. Экспериментальные зависимости сорбционной емкости от равновесной концентрации элементов в растворе были аппроксимированы в координатах уравнением Ленгмюра, коэффициент корреляции полученных линейных функций сотавляет ≥ 0,99 . Рассчитаны значения максимальной сорбционной емкости (A_мах) и константы равновесия для всех исследуемых металлов. Оценена возможность рентгенофлуоресцентного детектирования Сd(II), Co(II), Hg(II) в фазе сорбента. Значения пределов обнаружения  составили 3.0 ± 0.1; 3.8 ± 0.1; 4.2 ± 0.1 мкг/таблетка (m =0.15 г)  для Сd(II), Co(II), Hg(II) соответственно.

Ключевые слова: целлюлозные сорбенты, иммобилизованный тиосемикарбазид, сорбция

DOI: http://dx.doi.org/10.15826/analitika.2013.17.4.004

Lemos V.A., Gomes L.S., Marcos de Almeida Bezerra, Spнnola Costa Antonio Celso, J. Castro A.T., Martins Cardoso L.A., Djane S., Elenir E.S., Baliza P.X. Santos L.N. New materials for solid-phase extraction of trace elements. Applied Spectroscopy Reviews, 2008, vol. 43, pp. 303–334, doi:10.1080/05704920802031341

Nikiforov T.E., Kozlov V.A. [Specificity of the sorption of heavy metals cellulose sorbents from aqueous media]. Zhurn. prikl. himii [Russian Journal of Applied Chemistry], 2010, vol. 83, no. 10, pp. 1642-1645 (in Russian).

Zolotov Ju. A., Ivanov V.M., Amelin V.G. Himicheskie test-metody analiza [Chemical test methods of analysis]. M.: Editorial URSS, 2002. 304 p. (in Russian).

Mjasoedova G.V., Savvin S.B. Helatoobrazujushhie sorbenty [Chelating sorbents]. M.: Nauka, 1984. 171 p. (in Russian).

Rogovin Z.A. Himija celljulozy [Chemistry of cellulose]. M.: Himija. 1972. 520 p. (in Russian).

O’Connell D.W., Birkinshaw C., O’Dwyer T.F. Heavy metal adsorbents prepared from the modification of cellulose: A review, Bioresource Technology, 2008, vol. 99, pp. 6709-6724. doi.org/10.1016/j.biortech.2008.01.036.

Martin G., Trygg J., Fardim P. Functional cellulose beard: preparation, characterization, and applications. Chemical reviews, 2013, vol. 113, pp. 4812-4836. doi: 10.1021/cr300242j.

Mjasoedova G.V., Savin S.B. Makarova S.B, Eliseeva O.P. [Concentration and separation of the elements on the chelating sorbents. Sorption and separation of Pd, Pt, Rh, Au ]. Zhurn. analit. himii [Journal of Analytical Chemistry], 1972, vol. 27, no. 10, pp. 2004-2008 (in Russian).

Laine Jaakko, Sjхstrхm Eero. Bonding of sequestering groups to cellulose fibers. Part I. Bridging of 4-(2-pyridylazo)-rezorcinol to cellulose. Paperi Ja puu, 1973, vol. 55, no. 9, pp. 631-642.

Nikifirova, T.E., Kozlov V.A., Gagina A.N. [Sorption of copper cellulose sorbents modified dihlortriazinovym compound and polyvinylpyrrolidone]. Zhurn. prikl. Himii [Russian Journal of Applied Chemistry], 2010, vol. 83, no. 10, pp. 1635-1641 (in Russian)

Kitaev Ju. P., Buzykin B. I. Gidrazony [Hydrazones]. M.: Nauka, 1974. 415 p. ( in Russian).

Ivanov A.V., Figurovskaja V.N., Ivanov V.M. [Molecular absorption spectroscopy of complexes of 4 - (2-pyridylazo) resorcinol as an alternative to atomic absorption spectroscopy]. Vestn. Mosk. un-ta. Ser. 2, Himija [Bulletin of the Moscow university. Ser.2: Chemistry], 1992, vol. 33, no. 6, pp. 570-574.

Lur'e Ju.Ju. Analiticheskaja himija stochnyh vod [Analytical chemistry of wastewater] M.: Himija, 1984. 448 p. (in Russian).

Temerdashev Z.A., Konshina Dzh.N., Logacheva E.Ju., Konshin V.V. [Sorption properties of cellulose filters with covalently immobilized thiosemicarbazide]. Zh. analit. Himii [Journal of Analytical Chemistry], 2011, vol. 66, no. 10, pp. 1048-1054 (in Russian).

Volyncev M.P., Egorov V.V., Mjasoedova G.V. [TLC in inorganic analysis. Post 8. Using a new modified sorbents for separation of inorganic ions]. Zh. analit. Himii [Journal of Analytical Chemistry], 1971, vol. 26, no. 7, pp.1435-1438 (in Russian).

Abe W., Satoshi Isaka, Koike Y., Nakano K., Fujita K., Toshihiro N. X-ray fluorescence analysis of trace metals in environmental water using preconcentration with iminodiacetate extraction disk. X-ray spectrometry, 2006, vol. 35, pp. 184-189. DOI: 10.1002/xrs.892.

Hou, Xiandeng, Peters, Heather L., Yang, Zheng, Wagner, Karl A.; Batchelor, James D.; Daniel, Meredith M., Jones, Bradley T. Determination of Trace Metals in Drinking Water Using Solid-Phase Extraction Disks and X-ray Fluorescence Spectrometry Applied Spectroscopy, 2003, vol. 57, no. 3, pp. 338-342.

Zolotov Yu. New methods of natural water analysis. Analytical Sciences. 1991, vol. 7, pp. 991-996.

Varshal G.M., Velyukhanova T.K., Pavlutskaya V.I., . Starshinova N.P., Formanovsky A.A., Seregina I.F., Shilnikov A.M., Tsysin G.I., Zolotov Yu.A. Detata-Filters for Metal Preconcentration and Multielement Determination in Natural Waters. Int. J. Environ. Anal. Chem., 1994, vol. 57, pp. 107-124.

Shherbinina N.I. , Ishmiyarova G.R., Nikitina I.E., Myasoedova G., Polosukhina L.A., Uralov I.I., Simonova A.D., Danilova E.Ya. [Sorption-ray fluorescence determination of copper, nickel, zinc and chromium in wastewater]. Zhurn. analit. himii [Journal of Analytical Chemistry], 1990, vol. 45, no. 4, pp. 766-771 (in Russian).

Ho Y.S., Ng J.C.Y., McKay G. Kinetics of pollutant sorption by biosorbents: review. Separation and purification methods, 2000, vol. 29, pp. 189-232.

Saldadze K.M., Kopylova-Valova V.D. Kompleksoobrazujushhie ionity (kompleksity) [Chelating resins]. M.: Himija. 1980. 336 p. (in Russian).