R. Soto scite author profile

Multiwall carbon nanotubes are produced by decomposition of acetylene at 600 °C on metal catalysts supported on NaY zeolite. The support and the metal are eliminated by dissolving them in aqueous hydrofluoric acid (HF). Two methods were used to eliminate the pyrolitic carbon: oxidation in air at 500 °C and oxidation by potassium permanganate in acidic solution at 70 °C. The progress and efficacy of the purification methods are verified by TEM. The properties of the purified multiwalled carbon nanotubes are probed using 13C and 129Xe NMR spectroscopy under continuous-flow optical-pumping conditions. Xenon is shown to penetrate the interior of the nanotubes. A distribution of inner tube diameters gives rise to chemical shift dispersion. When the temperature is lowered, an increasing fraction of xenon resides inside the nanotubes and is not capable of exchanging with xenon in the interparticle space. In the case of the permanganate-oxidized sample, rapid xenon relaxation is attributed to interaction with residual MnO2 nanoparticles in the interior of the tubes.

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Laser surface modification of ultra-high-molecular-weight polyethylene (UHMWPE) for biomedical applications

Riveiro

Soto

Val

et al. 2014

Applied Surface Science

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R. Soto

Laser surface modification of PEEK

TEM and Laser-Polarized ¹²⁹Xe NMR Characterization of Oxidatively Purified Carbon Nanotubes

Laser surface modification of ultra-high-molecular-weight polyethylene (UHMWPE) for biomedical applications

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R. Soto

Laser surface modification of PEEK

TEM and Laser-Polarized 129Xe NMR Characterization of Oxidatively Purified Carbon Nanotubes

Laser surface modification of ultra-high-molecular-weight polyethylene (UHMWPE) for biomedical applications

Contact Info

Product

Resources

About

TEM and Laser-Polarized ¹²⁹Xe NMR Characterization of Oxidatively Purified Carbon Nanotubes