A. S. Prihodko scite author profile

Research results on the synthesis of carbon nanotube arrays using a combined catalyst are pre sented. Thanks to optimal synthesis parameters such as temperature, the reagent flow rate, the concentration and type of organometallic compound, and the composition of the catalyst film, a new synthesis method for the arrays of carbon nanotubes (CNTs) of a given topology is developed. The influence of the size effects of topological elements on the characteristics of the CNT arrays is studied. The results of a statistical analysis and research into the CNT morphology by transmission and scanning electron microscopy are shown.

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The influence of the atomic structure of basal planes on interplanar distance in pyrolytic carbon materials

Боргардт

Prihodko

Seibt

2016

Tech. Phys. Lett.

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Bulk Composite Nanomaterial with Multiwall Carbon Nanotubes

Ичкитидзе¹,

Podgaetsky²,

Prihodko³

et al. 2012

MSA

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The properties of the composite nanomaterials (CNM) based on bovine serum albumin (BSA) and multi-walled carbon nanotubes (MWCNT), both functionalized and non-functionalized, were investigated. In order to obtain the solid-state bulk CNM from the ultradispersed aqueous solutions of 25 wt.% BSA and (0.0015 - 0.04) wt.% MWCNT, the methods of nanotechnology and laser technology were used. It is revealed that the CNM density is 10% - 20% higher than that of water and the hardness is higher than that of BSA by a factor of 3 - 6 times. An increase in hardness Hv (by Vickers) of CNM correlated with an increase in the concentration of MWCNT, and Hyreached ~300 MPa for the case of the non-functionalized MWCNT, while for the case of the functionalized MWCNT, i.e. MWCNTf, Hy was 25% lower

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A. S. Prihodko

A Conductive Composite Nanomaterial with Biocompatible Matrix and Multilayer Carbon Nanotubes

Specificities of growth of topological arrays of carbon nanotubes

The influence of the atomic structure of basal planes on interplanar distance in pyrolytic carbon materials

Bulk Composite Nanomaterial with Multiwall Carbon Nanotubes

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