Fullerene whiskersFullerene whiskers are thin rods composed of fullerene molecules, such as C60, C70, or their mixtures. Hollow fullerene whiskers are called fullerene tubes. Such structures typically have a diameter of a few micrometers. When the diameter becomes smaller than 1 micron, the corresponding structures are called fullerene nanowhiskers or fullerene nanotubes.[1] Fullerene whiskers and tubes are held together by weak van der Waals forces, and hence are very soft.[1] They can be grown by precipitation at an interface between two liquids. They are semiconductors and have potential uses in field-effect transistors, solar cells, chemical sensors, and photocatalysts. When doped with alkali metals, such as potassium, they become superconductors at 18 K (−255.2 °C; −427.3 °F).[2] As-grown fullerene nanotubes have hexagonal shapes and face-centered cubic crystal structures. Owing to their relatively large inner diameters (approx. 100 nm) and low reactivity they can accommodate a wide range of nanoparticles. C60 nanotubes decompose upon heating to 416 °C (781 °F) in air.[1] ReferencesWikimedia Commons has media related to Fullerene whiskers.
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