Otto Zhou scite author profile

The fullerene C(60) can be converted into two different structures by high pressure and temperature. They are metastable and revert to pristine C(60) on reheating to 300 degrees C at ambient pressure. For synthesis temperatures between 300 degrees and 400 degrees C and pressures of 5 gigapascals, a nominal face-centered-cubic structure is produced with a lattice parameter a(o) = 13.6 angstroms. When treated at 500 degrees to 800 degrees C at the same pressure, C(60) transforms into a rhombohedral structure with hexagonal lattice parameters of a(o) = 9.22 angstroms and c(o) = 24.6 angstroms. The intermolecular distance is small enough that a chemical bond can form, in accord with the reduced solubility of the pressure-induced phases. Infrared, Raman, and nuclear magnetic resonance studies show a drastic reduction of icosahedral symmetry, as might occur if the C(60) molecules are linked.

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Alignment of carbon nanotubes in a polymer matrix by mechanical stretching

Jin

1998

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We report a method to fabricate polymer-based composites with aligned carbon nanotubes, and a procedure to determine the nanotube orientation and the degree of alignment. The composites were fabricated by casting a suspension of carbon nanotubes in a solution of a thermoplastic polymer and chloroform. They were uniaxially stretched at 100 °C and were found to remain elongated after removal of the load at room temperature. The orientation and the degree of alignment were determined by x-ray diffraction. The dispersion and the alignment of the nanotubes were also studied by transmission electron microscopy.

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Nucleation and growth of carbon nanotubes by microwave plasma chemical vapor deposition

Bower

Zhou

Zhu³

et al. 2000

492

277

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The nucleation and growth of aligned multiwall carbon nanotubes by microwave plasma-enhanced chemical vapor deposition have been studied. The nanotubes nucleate and grow from catalytic cobalt islands on a silicon substrate surface, with both their diameter and length dependent on the size of the cobalt islands. Electron microscopy reveals that the nanotubes grow via a “base growth” mechanism. The nanotubes grow initially at a very rapid and constant rate (∼100 nm/s) that decreases sharply after the catalyst Co particles become fully encapsulated by the nanotubes. We propose a detailed model to explain these experimental observations on nucleation and growth of nanotubes.

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Deformation of carbon nanotubes in nanotube–polymer composites

et al. 1999

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Composites of uniaxially oriented multiwalled carbon nanotubes embedded in polymer matrices were fabricated and investigated by transmission electron microscopy. In strained composite films, buckling was ubiquitously observed in bent nanotubes with large curvatures. By analyses of a large number of bent nanotubes, the onset buckling strain and fracture strain were estimated to be Ϸ5% and у18%, respectively. The buckling wavelengths are proportional to the dimensions of the nanotubes. Examination of the fracture surface showed adherence of the polymer to the nanotubes.

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Otto Zhou

Applications of Carbon Nanotubes

New Phases of C ₆₀ Synthesized at High Pressure

Alignment of carbon nanotubes in a polymer matrix by mechanical stretching

Nucleation and growth of carbon nanotubes by microwave plasma chemical vapor deposition

Deformation of carbon nanotubes in nanotube–polymer composites

Contact Info

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Resources

About

Otto Zhou

Applications of Carbon Nanotubes

New Phases of C 60 Synthesized at High Pressure

Alignment of carbon nanotubes in a polymer matrix by mechanical stretching

Nucleation and growth of carbon nanotubes by microwave plasma chemical vapor deposition

Deformation of carbon nanotubes in nanotube–polymer composites

Contact Info

Product

Resources

About

New Phases of C ₆₀ Synthesized at High Pressure