Modeling the Electronic Structure and Composition Tungsten Adsorbed Metal Complexes of on the Electrode Surface under Conditions of High-Temperature Electrochemical Synthesis
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DOI:
https://doi.org/10.14419/ijet.v7i4.8.27276Keywords:
electrochemical synthesis, tungsten carbides, cation analysis, ab initio-calculations, electron transfer.Abstract
The interest to the physics of nano-dimensional structures, the most urgent and most dynamically developing field of modern solid state physics, is connected both with completely new fundamental scientific problems and physical phenomena, and with the prospects of creating entirely new quantum devices and systems with wide functional opportunities for nano-electronics, measuring equipment, new-generation information technologies, communication equipment, etc.
References
Krishtalik LI,”Electrode Reactions. The Mechanism of the Elemen-tary Act”, Moscow: Nauka, (1979), pp.34-44
Shapoval VI, Kushxov XB ”Thermodynamics and Electrochemistry of Molten Salts”, Kyiv, (1986), p.53
Shapoval VI, Kushxov XB “Thermodynamics and Electrochemistry of Molten Salts”, Kyiv, (1982), p.35
Shapoval VI, Baraboshkin VI, ”Electrochemistry”. Vol. 33, (1987) p.35.
Conway BE, Bockris JO, ”Electrochemistry”. Vol. 7, (1961), p.53.
View more references (20)
Zusman LD, Beratan DN, ”Physical Chemistry”. 101, (1997), p.23.
Zusman LD, Beratan DN, ”Chemistry Physics”. 105, (1996), p.32.
Tribusch H, ”Electrochemistry” 39, (1994), p.34-35.
Tribusch H, ”Electro analytics chemistry” 331, (1992), p.35-37.
Solovyov VV, Chernenko LO, ”Questions about Chemistry and about Chemistry technologies”. 6, (2005), pp.45-47.
http://www.msg.ameslab.gov/GAMESS/GAMESS.html last visit 20.09.2018
Nemukhin AV, Grigorenko BL & Granovsky AA, ”University Chemistry Bulletin” 45, (2004), pp. 23-34.
Solovyov VV, Chernenko LO ”Ukrainian Chemistry” 71, (2005), pp.30-31.
Solovyov VV, Chernenko LO Visnyk of Kharkiv National Universi-ty. 648, (2005), pp.45-47.
Solovyov VV, Chernenko LO ”Electrochemically active particles and multi-electron transport in tungsten-containing isotopes” PoltNTU, (2009), pp.78-80.
Volkov SV, Novoselova IA, Solovyov VV and Chernenko LA ”European Conference on Combinatorial Catalysis Research and High-Thought-Put Technologies” 28, (2009), pp.127.
Solovyov VV, Chernenko LO ”Ukrainian Chemistry” 5, (2009), pp.34-35.
Solovyov VV, Chernenko LO Scientific Proceedins of the 2nd In-ternational Scientific and Practical Conference ‘Theory and Practice of Modern Electrochemical Production’, (2012), pp.129.
Solovyov VV, Chernenko LO ”Tungstate Containing Melts. Model-ling of Directional Many-Electron Transfer in Conditions of Cation-ic Catalysis” (2013), pp.34-35.
Landau LD, Lifshitz EM Quantum Mechanics: ”Nonrelativic Theo-ry” Theoretical Physics. Vol.3, (1979), pp.123-133.
V I Shapoval, V V Solov'ev, V V Malyshev, "Electrochemically active species and multielectron processes in ionic melts", RUSS CHEM REV, 2001, 70 (2), 161–176 https://doi.org/10.1070/RC2001v070n02ABEH000619
Gutak, A. D. (2015). Experimental investigation and industrial ap-plication of ranque-hilsch vortex tube. International Journal of Re-frigeration, 49, 93-98. https://doi.org/10.1016/j.ijrefrig.2014.09.021
Loburets, A. T., Naumovets, A. G., Senenko, N. B., & Vedula, Y. S. (1997). Surface diffusion and phase transitions in strontium over-layers on W(112). Zeitschrift Fur Physikalische Chemie, 202(1-2), 75-85.
Popova, A. V., Kremenetsky, V. G., Solov'ev, V. V., Chernenko, L. A., Kremenetskaya, O. V., Fofanov, A. D., & Kuznetsov, S. A. (2010). Standard rate constants of charge transfer for nb(V)/Nb(IV) redox couple in chloride-fluoride melts: Experimental and calcula-tion methods. Russian Journal of Electrochemistry, 46(6), 671-679. https://doi.org/10.1134/S1023193510060121
Onischenko, V. A., Soloviev, V. V., Chernenko, L. A., Malyshev, V. V., & Bondus, S. N. (2014). Acidic-basic interactions in tungstate melts based on tungsten electroplating out of them. Materialwissenschaft Und Werkstofftechnik, 45(11), 1030-1038. https://doi.org/10.1002/mawe.201400222