E
E. V. Tat’yanin
Researcher at Siemens
Publications - 9
Citations - 159
E. V. Tat’yanin is an academic researcher from Siemens. The author has contributed to research in topics: Nanocomposite & Nanoparticle. The author has an hindex of 7, co-authored 9 publications receiving 136 citations.
Papers
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Journal ArticleDOI
C60-doping of nanostructured Bi–Sb–Te thermoelectrics
Mikhail Popov,Sergei G. Buga,Philipp Vysikaylo,Petr Stepanov,Vasilii Skok,Viacheslav Medvedev,E. V. Tat’yanin,V. N. Denisov,Alexei Kirichenko,V. V. Aksenenkov,Vladimir Blank +10 more
TL;DR: The fullerenemolecules provide thermal phonons blocking and particular charge transfer in the nanocomposite as mentioned in this paper, and they act aselectron traps, and thus decrease the density of free electrons inn-type semiconductor and generate holes in p-type materials.
Journal ArticleDOI
Fulleride of aluminum nanoclusters
Mikhail Yu. Popov,Viacheslav Medvedev,V.D. Blank,V. N. Denisov,A. N. Kirichenko,E. V. Tat’yanin,V. V. Aksenenkov,S. Perfilov,R. Lomakin,E. D'yakov,V. Zaitsev +10 more
TL;DR: In this paper, the properties of nanocomposites composed of fullerene C60 chemically bonded to Al nanocrystals are reported, which create a class of new material of fulleride of aluminum nanoclusters.
Journal ArticleDOI
Cu–C 60 nanocomposite with suppressed recrystallization
Viacheslav Medvedev,Mikhail Yu. Popov,B. N. Mavrin,V. N. Denisov,A. N. Kirichenko,E. V. Tat’yanin,L. A. Ivanov,V. V. Aksenenkov,S. Perfilov,R. Lomakin,V.D. Blank +10 more
TL;DR: In this article, the microstructure characteristics of the composite were investigated at different temperatures and the experimental result showed that the composite temperature recrystallization is impeded by carbon modification of copper grain boundaries.
Journal ArticleDOI
Electrical conductivity of nanostructured and C60-modified aluminum
Andrey Zameshin,Mikhail Yu. Popov,Viacheslav Medvedev,S. Perfilov,R. Lomakin,Sergei G. Buga,V. N. Denisov,Alexei Kirichenko,Elena A. Skryleva,E. V. Tat’yanin,V. V. Aksenenkov,V.D. Blank +11 more
TL;DR: In this paper, the electrical conductivity of nanostructured C60-modified aluminum has been studied and the possibility of optimizing its electrical and mechanical properties has been proposed. But the model is in qualitative agreement with the experimental data.
Journal ArticleDOI
Nanostructured superhard carbon phase obtained under high pressure with shear deformation from single-wall nanotubes HiPco
V.D. Blank,V.N. Denisov,A. N. Kirichenko,N.A. Lvova,S. Y. Martyushov,B. N. Mavrin,D.M. Popova,M. Yu. Popov,E. V. Tat’yanin,Anvar A. Zakhidov +9 more
TL;DR: In this article, the Raman spectra of single-wall nanotubes under high pressure combined with shear deformation were investigated in situ in a diamond cell, and the hardness of the superhard material was 58±6 GPa.