Self-assembly of 6- O- and 6′- O-hexadecylsucroses mixture under aqueous conditions

In this paper, we report the self-assembly of 6- O- and 6′- O-hexadecylsucroses mixture under aqueous conditions. The mixture was synthesized by a five-step sequence from sucrose. The SEM image of a sample prepared by drying a dispersion of the mixture in water showed nanoparticles with the diameter...

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Bibliographic Details
Published in:Carbohydrate research 2010-12, Vol.345 (18), p.2718-2722
Main Authors: Kanemaru, Manami, Kuwahara, Shin-ya, Yamamoto, Kazuya, Kaneko, Yoshiro, Kadokawa, Jun-ichi
Format: Article
Language:English
Subjects:
6- O- and 6′- O-hexadecylsucroses
Amphiphilic
Carbohydrate Sequence
Face-centered cubic
Micelles
Microscopy, Electron, Scanning
Nanoparticle
Nanoparticles - chemistry
Nanoparticles - ultrastructure
Self-assembly
Spherical micelle
Water - chemistry
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Summary:In this paper, we report the self-assembly of 6- O- and 6′- O-hexadecylsucroses mixture under aqueous conditions. The mixture was synthesized by a five-step sequence from sucrose. The SEM image of a sample prepared by drying a dispersion of the mixture in water showed nanoparticles with the diameter of ∼50 nm and aggregates that were formed by further assembly of them. The XRD measurement of the sample exhibited the diffraction pattern assignable to face-centered cubic (FCC) structure and the diameter of a sphere, which took part in the FCC structure, was calculated to be 5.1 nm. This value was relatively close to that observed in the DLS measurement of a dispersion of the mixture in water and estimated for a spherical micelle based on the molecular sizes of the two sucrose ethers. On the basis of the above findings, the following self-assembly process of the mixture under aqueous conditions was proposed. The mixture formed the spherical micelles with the diameter of ∼5–7 nm in water. The micelles regularly organized according to the FCC structure during the drying process from the aqueous dispersion to construct the nanoparticles with the diameter of ∼50 nm. Several numbers of the nanoparticles further assembled to form the aggregates.
ISSN:0008-6215
1873-426X
DOI:10.1016/j.carres.2010.10.003