Y. Kakudate scite author profile

We present a rational and general method to fabricate a high-densely packed and aligned single-walled carbon-nanotube (SWNT) material by using the zipping effect of liquids to draw tubes together. This bulk carbon-nanotube material retains the intrinsic properties of individual SWNTs, such as high surface area, flexibility and electrical conductivity. By controlling the fabrication process, it is possible to fabricate a wide range of solids in numerous shapes and structures. This dense SWNT material is advantageous for numerous applications, and here we demonstrate its use as flexible heaters as well as supercapacitor electrodes for compact energy-storage devices.

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Raman study of the solid-state polymerization of acetylene at high pressure

Aoki

Usuba

Yoshida

et al. 1988

106

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The mechanism and kinetics of the pressure-induced polymerization of acetylene were studied by Raman spectroscopy. The polymerization reaction occurred in the orthorhombic phase at room temperature and pressures above 3.5 GPa. Dominant formation of trans-polyacetylene suggested that the monomer underwent trans opening of the triple bond and polymerized along the diagonal of the bc plane of the unit cell. The reaction was described as an idealized one-step and one-dimensional growth process by an Avrami equation with an exponent 1.34.

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Synthesis and characterization of a shock-synthesized cubic B–C–N solid solution of composition BC_2.5N

Komatsu¹,

Nomura²,

Kakudate³

et al. 1996

J. Mater. Chem.

101

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A cubic BC,.,N solid solution (c-BC,.,N) was synthesized in 18% yield by shock-compression of a hexagonal BC2.5N compound. c-BC2.,N was confirmed to have a diamond structure without a long range order of atomic arrangement. The material is a polycrystal composed of microcrystals of 5-20 nm in size. All constituent atoms are teterahedrally coordinated, giving C-C, C-By C-N, and B-N bonds, and are homogeneously distributed on the lattice planes rather than showing a full short range order of atomic arrangement.

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Infrared study of vibrational property and polymerization of fullerene C60 and C70 under pressure

Yamawaki¹,

Yoshida²,

Kakudate³

et al. 1993

J. Phys. Chem.

110

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Solid state polymerization of cyanoacetylene into conjugated linear chains under pressure

Aoki¹,

Kakudate²,

Yoshida³

et al. 1989

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Cyanoacetylene underwent polymerization reaction in a solid phase at pressures above 1.5 GPa. The Raman study of the reaction product showed that the polymer had a conjugated linear backbone with CN pendant groups. The Raman spectra for this substituted polyacetylene demonstrated a resonance behavior similar to that reported for trans-polyacetylene. The optical gap associated with the π–π* transition in the conjugated system was smaller than that of trans-polyacetylene, probably due to the resonance interactions between the CN triple bonds and the conjugated double bonds.

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Y. Kakudate

Shape-engineerable and highly densely packed single-walled carbon nanotubes and their application as super-capacitor electrodes

Raman study of the solid-state polymerization of acetylene at high pressure

Synthesis and characterization of a shock-synthesized cubic B–C–N solid solution of composition BC_2.5N

Infrared study of vibrational property and polymerization of fullerene C60 and C70 under pressure

Solid state polymerization of cyanoacetylene into conjugated linear chains under pressure

Contact Info

Product

Resources

About

Y. Kakudate

Shape-engineerable and highly densely packed single-walled carbon nanotubes and their application as super-capacitor electrodes

Raman study of the solid-state polymerization of acetylene at high pressure

Synthesis and characterization of a shock-synthesized cubic B–C–N solid solution of composition BC2.5N

Infrared study of vibrational property and polymerization of fullerene C60 and C70 under pressure

Solid state polymerization of cyanoacetylene into conjugated linear chains under pressure

Contact Info

Product

Resources

About

Synthesis and characterization of a shock-synthesized cubic B–C–N solid solution of composition BC_2.5N