K. I. Maslakov scite author profile

Pristine, oxidized and defunctionalized carbon nanotubes (CNTs) were studied by Raman spectroscopy, X-ray diffraction, transmission electron microscopy and low temperature nitrogen adsorption. The Raman spectra of the studied samples in the range of 900-1800 cm were deconvoluted into five components to reveal the CNT oxidation mechanism. It was found that the oxidation resulted in the reduction of graphite components and ordering of both the structured and defect part of CNTs. Acid treatment also led to different types of disorders in the surface layers of CNTs. Polyene-type, polyphenylene-type and turbostratic fragments were detected as a result of partial exfoliation. Investigation of defunctionalized CNTs showed the ordering of edge carbon atoms as well as the invariability of the total amount of defects. The study of CNTs as supports for Co-based catalysts revealed a simultaneous decrease in the number of defect fragments and increase in the number of edge carbon atoms during catalyst preparation and reduction.

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New insights into the mechanism of graphene oxide and radionuclide interaction

Kuzenkova

Romanchuk

Trigub

et al. 2020

Carbon

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K. I. Maslakov

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Effects of composition and morphology of active phase of CoMo/Al2O3 catalysts prepared using Co2Mo10–heteropolyacid and chelating agents on their catalytic properties in HDS and HYD reactions

Highly conductive and transparent films of HAuCl4-doped single-walled carbon nanotubes for flexible applications

High-temperature ferromagnetism in Si1 − x Mn x (x ≈ 0.5) nonstoichiometric alloys

Oxidation, defunctionalization and catalyst life cycle of carbon nanotubes: a Raman spectroscopy view

New insights into the mechanism of graphene oxide and radionuclide interaction

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