Laboratoire Léon Brillouin

UMR12 CEA-CNRS, Bât. 563 CEA Saclay

91191 Gif sur Yvette Cedex, France


Let's scatter neutrons

Jan 13, 2010
Nanotubes without carbon, but full of novelties!
P. Maillet*, C. Levard**, E. Larquet§, C. Mariet,* O. Spalla*, N. Menguy§, A. Masion**, E. Doelsch, J. Rose** et Antoine Thill*

Imogolites (OH)3Al2O3Si(OH) are natural minerals discovered in 1962 in Japanese volcanic soils. Their structure is similar to that of a carbon nanotube. They are made of a curved Gibbsite  sheet Al(OH)3  forming a nanotube of 2 nm in diameter. The tetrahedral silicon adsorbed inside the nanotube controls  its curvature. The diificulties to synthesized  large quantities of  this  mineral have indered the development of industrial applications. Recently a new synthetic process has allowed to circumvent this difficulty. Research are now performed  to better understand and control this new synthesis.


The increase of the synthesis yield was made possible by replacing silicon with germanium. Indeed,  a CNRS (CEREGE, Aix-en-Provence) team was able, to synthesize large quantities of Al-Ge  Imogolite analogues [1]. The structure of these analogues has been analyzed in detail by Small Angle X-ray Scattering  (SAXS) at the ESRF BM02 beamline  and by cryo-TEM by a team of IRAMIS-SIS2M. It is shown that these analogues are Imogolite nanotubes, but they exist in two forms. Depending on  the synthesis conditions, it is possible to produce single-walled tubes of 3.5 nm in diameter, but also double-walled tubes of 4 nm diameter. Such double-walled Imogolite-like nanotubes are reported for the first time. The high reactant concentration used for this synthesis also unraveled the controversial nature of the so called proto-Imogolite which was poorly known so far.

This new synthesis is the first that enables the production of large quantities of monodisperse nanotubes with a diameter less than 5 nm, perfectly calibrated, hydrophilic and prone to functionalization. The current research aims firstly at  understanding the mechanisms and kinetics of formation of these new nanotubes and also at controling their organization. In parallel, the toxicity study is carried on in our laboratory.

This work is the subject of a publication in the "Journal of the Chemical Society (JACS)" [2]

Nanotubes without carbon, but full of novelties!

Small angles X-ray scattering diagram of nanotubes of similar Germanium Imogolite. Data points correspond to the intensity measured and solid lines give the scattering intensity for the two structural models. Both structures have distinct diffusion curve. Indeed, interference between the walls of double-walled tubes add a modulation at large scattering angles. Oscillations in the diffusion for both structures reflect the remarkable mono-dispersity in diameter of the nanotubes. On the Cryo-TEM images, the two types of nanotubes (single and double wall) can be easily distinguished.


[1] C. Levard, J. Rose, A; Masion, E. Doelsch, D. Borschneck, L. Olivi, C. Dominici, O. Grauby, J.C. Woicik and J.-Y. Bottero, J. Am. Chem. Soc. 2008, 130 (18) 5862.


[2] Evidence of Double-Walled Al-Ge Imogolite-Like Nanotubes. A Cryo-TEM and SAXS Investigation,
P. Maillet, C. Levard, E. Larquet, C. Mariet, O. Spalla, N. Menguy, A. Masion, E. Doelsch, J. Rose and A. Thill, J. Am. Chem. Soc, 132 (2010) 1208.



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