В. А. Рыжков scite author profile

Nanotubes made of boron nitride (BN) and carbon have attracted considerable attention within the literature due to their unique mechanical, electrical and thermal properties. In this work, BN and carbon nanotubes, exhibiting high purity (>99%) and similar surface areas (~200 m2/g), were systematically investigated for their thermal stability and oxidation behavior by combining thermal gravimetric analysis and differential scanning calorimetry methods at temperatures of up to ~1300 °C under a synthetic air flow environment. The BN nanotubes showed a good resistance to oxidation up to ~900 °C and fully transformed to boron oxide up to ~1100 °C, while the carbon nanotubes were stable up to ~450 °C and almost completely combusted up to ~800 °C. The different oxidation mechanisms are attributed to the different chemical nature of the two types of nanotubes.

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Novel combustion synthesis of carbon foam‑aluminum fluoride nanocomposite materials

Kostoglou

Gunduz

Işık

et al. 2018

Materials & Design

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В. А. Рыжков

High intensity pulsed ion beam sources and their industrial applications

Few-step synthesis, thermal purification and structural characterization of porous boron nitride nanoplatelets

Few-layer graphene-like flakes derived by plasma treatment: A potential material for hydrogen adsorption and storage

Boron Nitride Nanotubes Versus Carbon Nanotubes: A Thermal Stability and Oxidation Behavior Study

Novel combustion synthesis of carbon foam‑aluminum fluoride nanocomposite materials

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