S
S. I. Nikitin
Researcher at Kazan Federal University
Publications - 87
Citations - 509
S. I. Nikitin is an academic researcher from Kazan Federal University. The author has contributed to research in topics: Crystal & Absorption spectroscopy. The author has an hindex of 12, co-authored 78 publications receiving 439 citations. Previous affiliations of S. I. Nikitin include Kurchatov Institute & Russian Academy of Sciences.
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Synthetic sequence-specific ligands.
G. V. Gursky,Alexander S. Zasedatelev,Alexei L. Zhuze,Khorlin Aa,S. L. Grokhovsky,Strel'tsov Sa,A. N. Surovaya,S. I. Nikitin,Alexander S. Krylov,V.O. Retchinsky,M.V. Mikhailov,R.S. Beabealashvili,B.P. Gottikh +12 more
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Quantum mechanics study of the mechanism of deformation and fracture of graphene
TL;DR: In this article, the microscopic mechanisms of uniaxial deformation and fracture of graphene are investigated in the framework of quantum mechanics, and the deformation forces are calculated at the nanoscale level.
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A very large diversity space of synthetically accessible compounds for use with drug design programs.
S. I. Nikitin,Natalia Zaitseva,Olga Demina,Vera Solovieva,Evgeny Mazin,Sergey Mikhalev,Maxim Smolov,Anatoliy Rubinov,Peter K. Vlasov,Dmitry Lepikhin,Denis Khachko,Valery V. Fokin,Cary Queen,Viktor Zosimov +13 more
TL;DR: A very large virtual diversity space containing more than 1013 chemical compounds, built from about 400 combinatorial libraries, is constructed and can be used as a vast source of compounds by a de novo drug design program.
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Structural and magnetic properties of Dy2Fe17Hx (x=0 and 3) single crystals
I. S. Tereshina,S. I. Nikitin,W. Suski,J. Stepien‐Damm,W. Iwasieczko,H. Drulis,Konstantin P. Skokov +6 more
TL;DR: In this article, the effect of hydrogen on structural and magnetic properties of Dy2Fe17Hx single crystal was investigated and the results were discussed in terms of a model considering the interaction of the quadrupole and 4f electron magnetic moments of the rare-earth ion with the interstitial hydrogen atoms.
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Magnetic and spectral properties of the multisublattice oxides SrY2O4:Er3+ and SrEr2O4
B. Z. Malkin,S. I. Nikitin,I. E. Mumdzhi,D. G. Zverev,R. V. Yusupov,I.F. Gilmutdinov,R.G. Batulin,B. F. Gabbasov,Airat Kiiamov,D. T. Adroja,D. T. Adroja,Olga Young,Olga Young,Oleg Petrenko +13 more
TL;DR: In this paper, the effects of crystal fields (CFs) in a compound containing four magnetically inequivalent erbium sublattices are investigated experimentally and theoretically, and two sets of CF parameters corresponding to the ions at the crystallographically inequivalent lattice sites are derived which fit all available experimental data well, including the magnetization and dc susceptibility data for both lightly doped and concentrated samples.