Mamiko Kanamaru scite author profile

Phenanthrene was adsorbed from ethanol solution to the surface of single wall carbon nanotubes, which were previously physically and chemically characterized. Different anionic surfactants were added in the solutions to enhance the phenanthrene solubility and apparently have also improved the dispersion of two respective nanotube samples used. Adsorbed amount was determined through the concentration difference measured by UV-visible spectrophotometry. Results suggest that adsorption of phenanthrene is extremely improved in the case of nanotube purified with higher quality. These findings were confirmed by X-ray photoelectron spectroscopy. The influence of the surfactant on the adsorption kinetics of phenanthrene is suggested to be significant as well.

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RBM band shift-evidenced dispersion mechanism of single-wall carbon nanotube bundles with NaDDBS

Utsumi

Kanamaru

Honda

et al. 2007

Journal of Colloid and Interface Science

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Enhanced Hydrogen Adsorptivity of Single-Wall Carbon Nanotube Bundles by One-Step C₆₀-Pillaring Method

et al. 2009

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Single-wall carbon nanotube (SWCNT) bundles were pillared by fullerene (C60) by the cosonication of C60 and SWCNT in toluene to utilize the interstitial pores for hydrogen storage. C60-pillared SWCNTs were confirmed by the shift in the X-ray diffraction peak and the expanded hexagonal and distorted tetragonal bundles revealed by high-resolution transmission electron microscopy. The H2 adsorptivity of the C60-pillared SWCNT bundles was twice that of the original SWCNT bundles, indicating a design route for SWCNT hydrogen storage.

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Mamiko Kanamaru

Phenanthrene Adsorption from Solution on Single Wall Carbon Nanotubes

RBM band shift-evidenced dispersion mechanism of single-wall carbon nanotube bundles with NaDDBS

Enhanced Hydrogen Adsorptivity of Single-Wall Carbon Nanotube Bundles by One-Step C₆₀-Pillaring Method

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About

Mamiko Kanamaru

Phenanthrene Adsorption from Solution on Single Wall Carbon Nanotubes

RBM band shift-evidenced dispersion mechanism of single-wall carbon nanotube bundles with NaDDBS

Enhanced Hydrogen Adsorptivity of Single-Wall Carbon Nanotube Bundles by One-Step C60-Pillaring Method

Contact Info

Product

Resources

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Enhanced Hydrogen Adsorptivity of Single-Wall Carbon Nanotube Bundles by One-Step C₆₀-Pillaring Method