Self-Assembly of Achiral Shape Amphiphiles into
Multi-Walled Nanotubes via Helicity-Selective Nucleation and Growth
Ren, LJ (Ren, Li-Jun)[ 1,2 ] ; Wu, H (Wu, Han)[ 1,2 ] ; Hu, MB (Hu, Min-Biao)[ 1,2 ] ; Wei, YH (Wei, Yu-Han)[ 5 ] ; Lin, Y (Lin, Yue)[ 4 ] ; Wang, W (Wang, Wei)[ 1,2,3 ]
CHEMISTRY-AN
ASIAN JOURNAL, 2018, 13(7): 775-779
DOI: 10.1002/asia.201800005
WOS:000429415400008
Abstract
Soft
nanotubes are normally constructed from chiral amphiphiles through helical
self-assembly. Yet, how to self-assemble achiral molecules into nanotubes is
still a challenge. Here, we report the nanotube construction with achiral shape
amphiphiles through helical self-assembly and also unravel the formation
mechanisms. The amphiphiles have a dumbbell shape and are composed by
covalently linking three achiral moieties together: two unlike clusters and an
organic tether. The difference in polarity between the unlike clusters drives
the amphiphiles to self-assemble into single- and multi-walled nanotubes as
well as intermediates. Analysis of the key intermediates unravels the
self-assembly mechanism of helicity-selective nucleation and growth. Meanwhile,
direct visualization of the individual clusters in the ribbons displays a
two-dimensional deformed hexagonal lattice. Thus, we speculate that it is the
lattice deformation that creates anisotropic tension along different directions
of the ribbon which further results in the formation of helical ribbons towards
nanotubes by amphiphiles.
