Лаборатория концентрирования

Научная группа И.В. Плетнева

Публикации

[1]S. V. Smirnova, T. O. Samarina, D. V. Ilin, and I. V. Pletnev. Multielement determination of trace heavy metals in water by microwave-induced plasma atomic emission spectrometry after extraction in unconventional single-salt aqueous biphasic system. Analytical Chemistry, 90(10):6323–6331, 2018.
[2]A. V. Rzhevskaia, N. V. Shvedene, and I. V. Pletnev. Anion-selective electrodes based on solidified 1,3-dihexadecylimidazolium ionic liquids with halide and pseudohalide anions. Journal of Electroanalytical Chemistry, 783:274–279, 2016.
[3]Svetlana V. Smirnova, Tatyana O. Samarina, and Igor V. Pletnev. Novel ionic liquids for liquid-liquid extraction. Chapter in book: Analytical Applications of Ionic Liquids, pages 139–188. World Scientific, 2016.
[4]С. В. Смирнова, Т. О. Самарина, Д. В. Ильин, И. В. Плетнев, Ю. А. Золотов. Метод возникающего растворителя: экстракция ионов металлов из водных растворов в образующуюся in situ ионную жидкость. Доклады Академии наук, 469(6):691–693, 2016.
[5]S. V. Smirnova, T. O. Samarina, and I. V. Pletnev. Hydrophobic-hydrophilic ionic liquids for the extraction and determination of metal ions with water-soluble reagents. Analytical Methods, 7:9629–9635, 2015.
[6]S. Heller, A. McNaught, I. Pletnev Igor, S. Stein, and D. Tchekhovskoi. InChI, the IUPAC International Chemical Identifier. Journal of Cheminformatics, 7:23–23, 2015.
[7]A. V. Rzevskaia, N. V. Shvedene, and I. V. Pletnev. Solidified ionic liquid as crystalline sensing element of the bromide selective electrode. Sensors and Actuators, B: Chemical, 193:563–567, 2014.
[8]S. Heller, A. McNaught, S. Stein, D. Tchekhovskoi, and I. Pletnev. InChI - the worldwide chemical structure identifier standard. Journal of Cheminformatics, 5:7–7, 2013.
[9]I. Pletnev, A. Erin, A. McNaught, K. Blinov, D. Tchekhovskoi, and S. Heller. InChIKey collision resistance: an experimental testing. Journal of Cheminformatics, 4:39–39, 2012.
[10]N.V. Shvedene, A.V. Rzhevskaia, and I.V. Pletnev. Ionic liquids based on quaternary phosphonium cation as active components of solid-state iodide selective electrode. Talanta, 102:123–127, 2012.
[11]N.V. Shvedene, O.A. Avramenko, V.E. Baulin, L.G. Tomilova, and I.V. Pletnev. Iodide-selective screen-printed electrodes based on low-melting ionic solids and metallated phthalocyanine. Electroanalysis, 23(5):1067–1072, 2011.
[12]V.M. Egorov, D.I. Djigailo, D.S. Momotenko, D.V. Chernyshov, I.I. Torocheshnikova, S.V. Smirnova, and I.V. Pletnev. Task-specific ionic liquid trioctylmethylammonium salicylate as extraction solvent for transition metal ions. Talanta, 80(3):1177–1182, 2010.
[13]D. V. Chernyshov, V. M. Egorov, N. V. Shvedene, and I. V. Pletnev. Low-melting ionic solids: Versatile materials for ion-sensing devices. ACS Applied Materials & Interfaces, 1(9):2055–2059, 2009.
[14]V.M. Egorov, S.V. Smirnova, and I.V. Pletnev. Highly efficient extraction of phenols and aromatic amines into novel ionic liquids incorporating quaternary ammonium cation. Sep. Pur.Tech., 63(3):710–715, 2008.