Bindu Sadanadan scite author profile

Multiple-walled carbon nanotubes (MWNTs) produced using the chemical vapor deposition method were functionalized via attaching aminopolymer poly(propionylethylenimine-co-ethylenimine) to the nanotubes. Two different reaction conditions based on acylating the nanotube-bound carboxylic acids and on directly heating nanotubes in the polymer melt were used and compared. Both methods were effective in the nanotube functionalization, and the polymer-attached MWNTs were found to be soluble in many common organic solvents and in water. Results from the characterization of the functionalized nanotube samples using electron microscopy, optical spectroscopy, NMR, and thermal analysis techniques are presented and discussed.

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Photoinduced oxidation of carbon nanotubes

Savage¹,

Bhattacharya²,

Sadanadan³

et al. 2003

J. Phys.: Condens. Matter

103

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Photoinduced phenomena are of general interest for new materials. Recently, photoinduced molecular desorption of oxygen has been reported in carbon nanotubes. Here we present, using thermopower measurements, that carbon nanotubes when exposed simultaneously to UV light and oxygen exhibit photoinduced oxidation of the nanotubes. At least two plausible mechanisms for the experimentally observed photoinduced oxidation are proposed: (i) a lower energy barrier for the adsorption of photo-generated singlet oxygen, or (ii) due to the presence of defects in carbon nanotubes that may facilitate the formation of locally electron-deficient and electron-rich regions on the nanotubes which facilitate the adsorption of oxygen molecules on the nanotubes.

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Vacancy-mediated mechanism of nitrogen substitution in carbon nanotubes

et al. 2004

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Nitrogen substitution reaction in a graphene sheet and carbon nanotubes of different diameter are investigated using the generalized tight-binding molecular dynamics method. The formation of a vacancy in curved graphene sheet or a carbon nanotube is found to cause a curvature dependent local reconstruction of the surface. Our simulations and analysis show that vacancy mediated N substitution ͑rather than N chemisorption͒ is favored on the surface of nanotubes with diameter larger than 8 nm. This predicted value of the critical minimum diameter for N incorporation is confirmed by experimental results presented on nitrogen-doped multiwalled nanotubes with Ϸ5 at. % nitrogen prepared by the thermal chemical vapor deposition process.

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Electronic Properties of Polyaniline/Carbon Nanotube Composites

Ramamurthy¹,

Harrell²,

Gregory³

et al. 2003

Synthetic Metals

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Bindu Sadanadan

Functionalizing Multiple-Walled Carbon Nanotubes with Aminopolymers

Photoinduced oxidation of carbon nanotubes

Vacancy-mediated mechanism of nitrogen substitution in carbon nanotubes

Electronic Properties of Polyaniline/Carbon Nanotube Composites

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