Paula Queipo scite author profile

Both fullerenes and single-walled carbon nanotubes (SWNTs) exhibit many advantageous properties. Despite the similarities between these two forms of carbon, there have been very few attempts to physically merge them. We have discovered a novel hybrid material that combines fullerenes and SWNTs into a single structure in which the fullerenes are covalently bonded to the outer surface of the SWNTs. These fullerene-functionalized SWNTs, which we have termed NanoBuds, were selectively synthesized in two different one-step continuous methods, during which fullerenes were formed on iron-catalyst particles together with SWNTs during CO disproportionation. The field-emission characteristics of NanoBuds suggest that they may possess advantageous properties compared with single-walled nanotubes or fullerenes alone, or in their non-bonded configurations.

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An essential role of CO2 and H2O during single-walled CNT synthesis from carbon monoxide

Nasibulin

Brown

Queipo

et al. 2006

Chemical Physics Letters

149

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Shot Noise with Interaction Effects in Single-Walled Carbon Nanotubes

Queipo²,

Nasibulin³

et al. 2007

Phys. Rev. Lett.

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We have measured shot noise in single walled carbon nanotubes (SWNT) with good contacts at 4.2 K at low frequencies (f = 600 − 850 MHz). We find a strong modulation of shot noise over the Fabry-Perot pattern; in terms of differential Fano factor the variation ranges over 0.4 -1.2. The shot noise variation, in combination with differential conductance, is analyzed using two (spin-degenerate) modes with different, energy-dependent transmission coefficients. No power law dependence of shot noise, as expected for Luttinger liquids, was found in our measurements.

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Studies on Mechanism of Single-Walled Carbon Nanotube Formation

Nasibulin

Queipo²,

Shandakov³

et al. 2006

J. Nanosci. Nanotech.

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We presented detailed studies of the formation of single-walled carbon nanotubes by an aerosol method based on the introduction of pre-formed catalyst particles into conditions leading to carbon nanotube synthesis. Carbon monoxide and iron nanoparticles were used as a carbon source and a catalyst, respectively. The vital role of etching agents such as CO2 and H2O in CNT formation was demonstrated on the basis of on-line Fourier-transform infrared spectroscopy measurements. Hydrogen was shown to participate in the reaction of carbon release and to prevent the oxidation of the catalyst particles and the hot wire. The addition of H2 and small amounts of CO2 and H2O led to an increase in the carbon nanotube lengths. The catalyst particle evaporation process inside the reactor was found to become significant at temperatures higher than 1100 degrees C. The carbon nanotube growth was found to occur at a temperature of around 900 degrees C in the heating section of the reactor by in situ sampling and the growth rate was calculated to exceed 1.1 microm/s. A detailed analysis of possible processes during carbon nanotube formation revealed heptagon transformation as a limiting stage. A mechanism for carbon nanotube formation was proposed.

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Manufacture and evaluation of carbon nanotube modified screen-printed electrodes as electrochemical tools

Fanjul‐Bolado

Queipo

Lamas-Ardisana

et al. 2007

Talanta

119

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Paula Queipo

A novel hybrid carbon material

An essential role of CO2 and H2O during single-walled CNT synthesis from carbon monoxide

Shot Noise with Interaction Effects in Single-Walled Carbon Nanotubes

Studies on Mechanism of Single-Walled Carbon Nanotube Formation

Manufacture and evaluation of carbon nanotube modified screen-printed electrodes as electrochemical tools

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