in Crystals »
Matysina, S.Yu. Zaginaychenko, D.V. Shchur, A. Veziroglu,
Veziroglu, M.T. Gabdullin, N.F. Javadov
Zolotarenko, An. Zolotarenko
Publishing house "KIM", 2017. - 1060 pages.
The work is
devoted to a theoretical study of phase transformations in metal
hydrides having a different crystal structure, as well as to an
experimental study of their hydrogen capacity.
ordering in alloys is theoretically investigated. The ordering
features due to the presence of hydrogen are shown and explained. A
formula is derived that determines the dependence of the solubility
of hydrogen on the composition of the alloy, temperature and the
degree of long-range atomic order in the lattice of the crystal.
solubilities of interstitial elements, which can be hydrogen,
nitrogen, boron and carbon in alloys, are calculated. Isotherms,
isobars, isoplets, isosters of the solubility of the interstitial
elements, as well as the mutual influence on the solubility of
various interstitial elements have been studied. Comparison of the
results of calculations with experimental data showed their
use of metal hydride systems is shown.
Section 40, "The Use of Hydrogenation Processes of the C60
Fullerene Molecule for the Study of the Features of its Cycle
Existence and Transformation," and the theory of the formation
and transformation of spherical molecules have been developed. The
materials of this article were published in an article in the
International Journal of Hydrogen Energy, which was nominated for the
Nobel Prize in Chemistry in 2016 by the universities of twelve
countries (Japan, Canada, USA, Brazil, Italy, China, Egypt, England,
Germany, Argentina, South Africa, India).