ELECTROCHEMISTRY OF FUNCTIONAL MATERIALS AND SYSTEMS (EFMS)
| Autor: | Maryna Ved, Mykola Sakhnenko, Gennadii Ya Kolbasov, Oleg Posudievsky, Oksana Bersirova, Valeriy Kublanovsky, Oleksandr Reshetnyak, Orest Kuntyi |
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| Rok vydání: | 2021 |
| Předmět: | |
| Zdroj: | Ukrainian Chemistry Journal. 87:61-76 |
| ISSN: | 2708-129X 2708-1281 |
| Popis: | The work is presented by the V. I. Vernadskii Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine for the State Prize of Ukraine in the field of science and technology. A new paradigm of the processes of electrochemical synthesis of functional materials has been created on the basis of the proposed theory of discharge-ionization of electrochemically active complexes and the laws of correlation between the functional properties of coatings and the fundamental characteristics and parameters of electrochemical kinetics. New approaches of surface engineering to the electrochemical synthesis and processing of materials that are capable of operating under extreme thermomechanical conditions under the simultaneous action of an aggressive medium have been developed. Innovatively promising technologies have been proposed for the formation of nanomaterials of new generation based on superalloys, metal oxide composites, photosensitive hetero- and nanostructures, electrically conductive polymers and their composites, etc. The main research directions in this work concern electrochemistry, both directly the method for the synthesis of new materials and the study and design of the electrochemical properties of materials / coatings / nanoparticles that cannot be obtained by other methods. The aim of the work was to develop the theoretical foundations of directed synthesis and to create a wide range of new competitive materials and systems on the basis of establishing the structural and functional patterns of their electrochemical formation. А number of novel competitive electrochemical materials (electrode and electrolyte materials for electrochemical power sources and supercapacitors, electro- and photocatalysts, sorption and optical materials, functional coatings, etc.) have been created as a result of the performed research. These materials are used in various fields of science and technology, namely, for alternative power generation, electrochemical power sources, nano- and microelectronics, electrochromic systems, electrocatalysis, ecosensorics, electrochemical synthesis of commercial products, photoelectrochemical systems, corrosion protection. The number of publications: 700, including 30 monographs (7 of them published abroad) and 39 chapters in collective monographs (30 of them published abroad), 36 textbooks (manuals), and 500 articles (350 of them published in foreign periodicals). The total number of references to the publications of the authors/h-index/i10-index (regarding the whole work) according to the databases is, respectively: Web of Science, 1856/21/52; Scopus, 2185/22/71; Google Scholar, 4903/33/148. The novelty and competitiveness of the technical solutions are protected by 33 valid patents (7 patents of Kazakhstan, China, USA). Eight doctoral dissertations (DSc) and 47 candidate's dissertations (PhD theses) on this subject matter have been defended. |
| Databáze: | OpenAIRE |
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