Electromagnetic Interaction Between Spherical Aerogels of Multi‐Walled Carbon Nanotubes

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The formation of active component of Fe-Mo and Co-Mo catalysts for carbon nanotube growth with variable Mo content is studied with in situ XRD, XPS, and STEM&EDX. The activation of bimetallic Fe-Mo catalysts under the growth conditions leads to the formation of Fe-Mo alloy particles in contrast to Co-containing catalysts in which active alloy incorporates only a small portion of Mo (<2-3 at.%). The stable carbide formation for these systems is not detected. The effect of Mo content in Fe-Mo and Co-Mo catalysts on the properties of MWCNTs is additionally investigated using the Raman spectroscopy in combination with measurements of the temperature dependence of conductivity. It is shown that MWCNT defectiveness depends on the active component composition for both Fe-Mo and Co-Mo catalysts. The current carrier concentration for the MWCNTs grown on Fe-Mo catalysts slightly increases with the Mo content. The opposite effect is observed for the tubes grown on Co-Mo catalysts, showing a decrease in the current carrier concentration with the increase of Mo concentration.

Section: Introductionmentioning

confidence: 99%

Fe–Mo and Co–Mo Catalysts with Varying Composition for Multi‐Walled Carbon Nanotube Growth

Kazakova

Кузнецов

Bokova‐Sirosh

et al. 2017

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“…It was interesting to compare this value with any independent data on the average distance between nanotubes in the aerogel. Unfortunately the analysis of average distances between MWCNTs using SEM images of aerogel is a complex task that requires obtaining tomographic images and extremely time‐consuming statistical analysis due to the tangled structure of curved nanotubes. So we used the analysis based on the volume fraction of nanotubes.…”

Section: Experiments On An Aerogel and Simulation Resultsmentioning

confidence: 99%

“…This model is semi‐empirical since the experimentally determined polarizability of a spherical sample is used to estimate the electrophysical parameters of the aerogel environment. An experimental study of spherical aerogels in the gigahertz range (8–12 GHz) showed that, despite the high conductivity of CNTs in the aerogel media and high density of their packages compared to the wavelength, effective parameters of aerogels noticeably differ from those of metals.…”

Section: Introductionmentioning

confidence: 99%

Interaction of Multiwalled Carbon Nanotube Aerogels with Quasi‐Optical Terahertz Beams

Dorofeev

Suslyaev

Мосеенков

et al. 2019

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This article presents the measurements of the reflectance from a plane‐parallel aerogel sample formed by multiwalled carbon nanotubes (MWCNTs) in the terahertz range. With an increase in frequency from 100 GHz to 1.5 THz, the reflectance decreases by more than a factor of two. Based on the experimental data and the well‐known wire medium model formed by a three‐dimensional lattice of intersecting conductors, a model of a regular wire medium is constructed using MWCNTs with effective electrophysical characteristics equivalent to those of an irregular aerogel medium. This model reveals that a significant drop in the reflectance in the terahertz frequency range occurs because the plasma frequency of the equivalent medium is located here. The model allows estimating the properties of the aerogel environment in the frequency range extending up to 5 THz and with variations in the packing density of MWCNTs in aerogel. Estimates of the reflection, transmission, and absorption are presented for the case of normal incidence on a thin (submillimeter) layer of such a medium. The aerogel absorption at a given conductivity of CNTs is determined by their packing density.

“…There are known models of a regular wire medium formed by macroscopic conductors, whereas for nanoscale objects such models are not available. We propose to construct such models by applying a macroscopic approach to nanoscale copper conductors, since their electrophysical properties are known and experimentally confirmed . The problem is that the wire medium models use bulk conductors, while the MWCNTs are considered as 2D objects, so a transition to some effective conductivity is required.…”

Section: Methodsmentioning

confidence: 99%

The Usage of Conducting Wire Sphere Models for the Estimation of Electrophysical Properties of Multiwalled Carbon Nanotube Spherical Aerogels

Dorofeev

Suslyaev

Karzanova

et al. 2018

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Here a method for estimating the effective parameters (effective conductivity) of spherical aerogels of multilayer carbon nanotubes (CNTs) is proposed using the measured values of their polarizability and the wire medium model. While aerogels have a structure formed with tangles of curved nanotubes with chaotic contact distribution, the possibility to describe their electrophysical properties using the regular connected wire medium is estimated here. Calculations of the polarizability of regular structures consisting of copper and CNT wires of identical diameters (not less than 50 nm) for different models are performed. It is suggested that by selecting the parameters of a regular medium, it is possible to achieve the closeness of the polarizability values of samples of the same shape consisting of regular and irregular media. The calculated polarizability values of aerogels are consistent with the results of measurements of polarizability performed using the method of open resonators in the range 8–12 GHz. The possibility of estimating the electrophysical characteristics of carbon aerogels is considered for further modeling of the electromagnetic characteristics of composites based on them.