Carbon Nanoscrolls as Fermat and Archimedean spirals

What is it about?

Structural features of multiwalled carbon nanotubes (MWCNTs) have been analyzed quantitatively by high-energy X-ray diffraction (HE-XRD) with atomic pair distribution function (PDF) technique. It has been found that the nanotubes are mainly of scroll type and own an atomic arrangement defined on the nanometer length scale in terms of a unit cell and symmetry. They exhibit multipart local (sub-nano-meter) and intermediate-range (on nano-length-scale) structures. The structural information at different length scales was used to probe the interlayer spacing distribution within the nanotubes. The radial dependence of interlayer spacing observed in pristine nanotubes presents a tendency for alteration to a uniform spacing of layer in the course of the heating-cooling cycle in the range of 298-450 K. These spatial changes illustrate a modification of Fermat-type stroll with uneven interlayer distances in pristine nano- tubes to more stable equidistant interlayer Archimedean spiral type in the heating-cooling treated ones.

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Photo by Victor on Unsplash

Photo by Victor on Unsplash

Why is it important?

The CNT-based devices experienced thermal manipulations in fabrication and operation processes. It is well known that heat treatments of CNT induce structural changes. Therefore, the thermal properties of CNTs are of fundamental interest and critical in controlling the performance and stability of nanotube devices

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