Yoichi Murakami scite author profile

An in situ optical absorbance measurement was used to study the growth dynamics of vertically aligned single-walled carbon nanotubes (VA-SWCNTs) synthesized by chemical vapor deposition of ethanol. The growth rate of the VA-SWCNT film was found to decay exponentially from an initial maximum, resulting in an effective growth time of approximately 15 minutes. Investigation of various growth conditions revealed an optimum pressure at which growth is maximized, and this pressure depends on the growth temperature. Below this optimum pressure the synthesis reaction is first-order, and the rate-limiting step is the arrival of ethanol at the catalyst. We also present a novel method for determining the burning temperature of low-mass materials, which combines the in situ absorbance measurement with controlled oxidation.

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Saturable absorbers incorporating carbon nanotubes directly synthesized onto substrates and fibers and their application to mode-locked fiber lasers

Yamashita

et al. 2004

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Exciton Diffusion in Air-Suspended Single-Walled Carbon Nanotubes

et al. 2010

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Direct measurements of the diffusion length of excitons in air-suspended single-walled carbon nanotubes are reported. Photoluminescence microscopy is used to identify individual nanotubes and to determine their lengths and chiral indices. Exciton diffusion length is obtained by comparing the dependence of photoluminescence intensity on the nanotube length to numerical solutions of diffusion equations. We find that the diffusion length in these clean, as-grown nanotubes is significantly longer than those reported for micelle-encapsulated nanotubes.

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Exciton dephasing and multiexciton recombinations in a single carbon nanotube

et al. 2008

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Yoichi Murakami

Applying the Naïve Bayes classifier with kernel density estimation to the prediction of protein–protein interaction sites

Growth dynamics of vertically aligned single-walled carbon nanotubes from in situ measurements

Saturable absorbers incorporating carbon nanotubes directly synthesized onto substrates and fibers and their application to mode-locked fiber lasers

Exciton Diffusion in Air-Suspended Single-Walled Carbon Nanotubes

Exciton dephasing and multiexciton recombinations in a single carbon nanotube

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