K
Kirill S. Napolskii
Researcher at Moscow State University
Publications - 140
Citations - 2035
Kirill S. Napolskii is an academic researcher from Moscow State University. The author has contributed to research in topics: Anodizing & Nanowire. The author has an hindex of 22, co-authored 119 publications receiving 1545 citations. Previous affiliations of Kirill S. Napolskii include Moscow Institute of Physics and Technology.
Papers
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High‐Resolution Transmission X‐ray Microscopy: A New Tool for Mesoscopic Materials
TL;DR: Three-dimensional photonic crystals offer additional features compared to 1D (gratings, multilayers) and 2D cases, possibly leading to new device concepts (e.g., for optical computing), but manufacturing problems are still far from being solved.
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Templating of electrodeposited platinum group metals as a tool to control catalytic activity
Kirill S. Napolskii,Piotr J. Barczuk,S. Yu. Vassiliev,A. G. Veresov,Galina A. Tsirlina,Pawel J. Kulesza +5 more
TL;DR: In this paper, the synthesis and investigation of Pt and Pt-Ru nanostructures templated by anodic aluminum oxide films is discussed. And a possibility to control catalytic activity of electrodeposits by means of templating is discussed as well.
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Role of Electrode Reaction Kinetics in Self-Ordering of Porous Anodic Alumina
TL;DR: In this paper, the formation of the long-range ordered porous structure occurs only when anodization rate is limited by migration in barrier layer, which separates metal and electrolyte, or by diffusion in pores, whereas the mixed control of anodic oxidation process leads to disordered porous structures.
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Tuning the microstructure and functional properties of metal nanowire arrays via deposition potential
Kirill S. Napolskii,I. V. Roslyakov,Andrey A. Eliseev,Dmitrii I. Petukhov,Alexey V. Lukashin,Shu Fang Chen,Chuan-Pu Liu,Galina A. Tsirlina +7 more
TL;DR: In this paper, the authors focused on electrochemical fabrication and characterization of the ordered arrays of one-dimensional Ni nanostructures templated by porous anodic alumina films.
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Permeability of anodic alumina membranes with branched channels.
TL;DR: Gas permeance measurements combined with electron microscopy unambiguously prove dead-end pore formation on voltage increase, while no pore merging appears in the course of the anodic oxidation of aluminum.