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Formation of ordered ice nanotubes inside carbon nanotubes

Kenichiro Koga (), G. T. Gao, Hideki Tanaka and X. C. Zeng
Additional contact information
Kenichiro Koga: Fukuoka University of Education
G. T. Gao: University of Nebraska
Hideki Tanaka: Okayama University
X. C. Zeng: University of Nebraska

Nature, 2001, vol. 412, issue 6849, 802-805

Abstract: Abstract Following their discovery1, carbon nanotubes have attracted interest not only for their unusual electrical and mechanical properties, but also because their hollow interior can serve as a nanometre-sized capillary2,3,4,5,6,7, mould8,9,10,11 or template12,13,14 in material fabrication. The ability to encapsulate a material in a nanotube also offers new possibilities for investigating dimensionally confined phase transitions15. Particularly intriguing is the conjecture16 that matter within the narrow confines of a carbon nanotube might exhibit a solid–liquid critical point17 beyond which the distinction between solid and liquid phases disappears. This unusual feature, which cannot occur in bulk material, would allow for the direct and continuous transformation of liquid matter into a solid. Here we report simulations of the behaviour of water encapsulated in carbon nanotubes that suggest the existence of a variety of new ice phases not seen in bulk ice, and of a solid–liquid critical point. Using carbon nanotubes with diameters ranging from 1.1 nm to 1.4 nm and applied axial pressures of 50 MPa to 500 MPa, we find that water can exhibit a first-order freezing transition to hexagonal and heptagonal ice nanotubes, and a continuous phase transformation into solid-like square or pentagonal ice nanotubes.

Date: 2001
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DOI: 10.1038/35090532

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