@incollection{LangeRoznyatovskayaHaoetal., author = {Lange, Ulrich and Roznyatovskaya, Nataliya V. and Hao, Qingli and Mirsky, Vladimir M.}, title = {Conducting polymers as artificial receptors in chemical sensors}, series = {Artificial receptors for chemical sensors}, booktitle = {Artificial receptors for chemical sensors}, editor = {Mirsky, Vladimir M. and Yatsimirsky, Anatoly K.}, publisher = {Wiley-VCH}, address = {Weinheim}, isbn = {978-3-527-32357-9}, doi = {10.1002/9783527632480.ch12}, pages = {363 -- 392}, language = {en} } @misc{LangeRoznyatovskayaMirsky, author = {Lange, Ulrich and Roznyatovskaya, Nataliya V. and Mirsky, Vladimir M.}, title = {Conducting polymers in chemical sensors and arrays (invited review)}, series = {Analytica Chimica Acta}, volume = {614}, journal = {Analytica Chimica Acta}, number = {1}, issn = {0003-2670}, doi = {10.1016/j.aca.2008.02.068}, pages = {1 -- 26}, abstract = {The review covers main applications of conducting polymers in chemical sensors and biosensors. The first part is focused on intrinsic and induced receptor properties of conducting polymers, such as pH sensitivity, sensitivity to inorganic ions and organic molecules as well as sensitivity to gases. Induced receptor properties can be also formed by molecularly imprinted polymerization or by immobilization of biological receptors. Immobilization strategies are reviewed in the second part. The third part is focused on applications of conducting polymers as transducers and includes usual optical (fluorescence, SPR, etc.) and electrical (conductometric, amperometric, potentiometric, etc.) transducing techniques as well as organic chemosensitive semiconductor devices. An assembly of stable sensing structures requires strong binding of conducting polymers to solid supports. These aspects are discussed in the next part. Finally, an application of combinatorial synthesis and high-throughput analysis to the development and optimization of sensing materials is described.}, language = {en} } @misc{RoznyatovskayaLaurinavichyuteTsirlinaetal., author = {Roznyatovskaya, Nataliya V. and Laurinavichyute, Veronika K. and Tsirlina, Galina A. and Mirsky, Vladimir M.}, title = {Electrochemistry and catalytic behavior of immobilized binuclear complexes of copper(II) and nickel(II) with Robson type ligand}, series = {Journal of Solid State Electrochemistry}, volume = {11}, journal = {Journal of Solid State Electrochemistry}, number = {7}, issn = {1432-8488}, doi = {10.1007/s10008-006-0235-7}, pages = {981 -- 992}, abstract = {Various systems containing immobilized binuclear copper(II) and nickel(II) complexes with Robson type ligand ([M2L]Cl2) are studied and compared in relation to catalysis of hydrogen peroxide reduction. Molecular complexes adsorbed on mercury and gold, crystalline complexes immobilized in the carbon paste electrode, and complex species entrapped into polyphenol-modified gold electrodes are considered. Electrocatalysis is assumed to result from the formation of H2O2-[M2L]Cl2 adduct, not from mediating redox transformations. Possible geometry of the formed reaction layers supporting adduct formation is discussed.}, language = {en} }