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Letter

Nature Nanotechnology
Published online: 1 November 2009 | doi:10.1038/nnano.2009.302

True solutions of single-walled carbon nanotubes for assembly into macroscopic materials

Virginia A. Davis1,2,6, A. Nicholas G. Parra-Vasquez1,2,7, Micah J. Green1,2,6,7, Pradeep K. Rai1,2,7, Natnael Behabtu1,2, Valentin Prieto1,2, Richard D. Booker1, Judith Schmidt4, Ellina Kesselman4, Wei Zhou5, Hua Fan1, W. Wade Adams1, Robert H. Hauge1,3, John E. Fischer5, Yachin Cohen4, Yeshayahu Talmon4, Richard E. Smalley1,3,8 & Matteo Pasquali1,2,3

Translating the unique characteristics of individual single-walled carbon nanotubes into macroscopic materials such as fibres and sheets has been hindered by ineffective assembly. Fluid-phase assembly is particularly attractive, but the ability to dissolve nanotubes in solvents has eluded researchers for over a decade. Here, we show that single-walled nanotubes form true thermodynamic solutions in superacids, and report the full phase diagram, allowing the rational design of fluid-phase assembly processes. Single-walled nanotubes dissolve spontaneously in chlorosulphonic acid at weight concentrations of up to 0.5wt%, 1,000 times higher than previously reported in other acids. At higher concentrations, they form liquid-crystal phases that can be readily processed into fibres and sheets of controlled morphology. These results lay the foundation for bottom-up assembly of nanotubes and nanorods into functional materials.