Synthesis and Self-Assembly of a Series of nPOSS-b-PEO
Block Copolymers with Varying Shape Anisotropy
Yu, CB (Yu, Cheng-Bin)[ 1,2 ] ; Ren, LJ (Ren, Li-Jun)[ 1,2 ] ; Wang, W (Wang, Wei)[ 1,2,3 ]
MACROMOLECULES,
2017, 50(8): 3273-3284
DOI: 10.1021/acs.macromol.7b00163
WOS:000400233000022
Abstract
Manipulation of shape anisotropy of building blocks is
creating diverse and complex assemblies, in particular in the field of colloid
science. Self-assembly of block copolymers has created a great number of
nano-objects and/or nanostructures. Herein we report the design and synthesis
of a series of block copolymers with varying shape anisotropy using polyhedral
oligomeric silsesquioxane (POSS) cluster and linear poly(ethylene oxide)s (PEO)
with different molecular weights. The POSS-b-PEO block copolymers were prepared
by means of first gathering one to four POSS clusters using short linear or
dendritic linkers and then covalently linking them with linear PEO blocks. In
this way, the shape anisotropy of the POSS-b-PEO block copolymers is varied
widely. We found that the PEO block crystallization in a selected solvent
drives the block copolymers to self-assemble into large nanothick sheets. We
characterized the sheets using TEM and XRD and found a structure of one PEO
crystalline layer sandwiched by two POSS layers. Then, we measured the melting,
recrystallization, and remelting processes of the sheets using DSC and observed
an effect of varying shape anisotropy on the melting and recrystallization
temperatures of the PEO and POSS layer and the crystallinity of the crystalline
PEO layer. We proposed ideal molecular structures to depict PEO crystalline
structure and POSS packing in the sheets and then semiquantitatively discussed
the effect of the varying shape anisotropy on the sheet formation from solution
and on PEO melting and crystallization in the nanoconfined space.
