One-, two-, and three-dimensional hierarchical self-assembly of non-amphiphilic low-entropy chains from nanotubes to nanoribbons and porous net-sheetsElectronic supplementary information (ESI) available. See DOI: 10.1039/c7nj00772h

The association of some small molecules such as benzene and phthalimide with non-amphiphilic homopolymeric low-entropy chains such as PVAc, PVA, PVP, and PNIPAM has been realized by reversible addition-fragmentation chain transfer reaction (RAFT) method. The as-prepared PT-PVA , PT-PVAc , PT-PVP , a...

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Main Authors: Liu, Rong-Ying, Peng, Zi-Fei, Hou, Xian-Nian
Format: Article
Language:English
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Summary:The association of some small molecules such as benzene and phthalimide with non-amphiphilic homopolymeric low-entropy chains such as PVAc, PVA, PVP, and PNIPAM has been realized by reversible addition-fragmentation chain transfer reaction (RAFT) method. The as-prepared PT-PVA , PT-PVAc , PT-PVP , and PT-PNIPAM can serve as new building blocks and show the capability in concentration-dependent multidimensional self-assembly from vesicles to nanotubes, nanoribbons, and three-dimensional porous net-sheet structures. The introduction of low-entropy chains enables small molecules to aggregate into the J-type formation, which confers small molecules with the fluorescence-color-tunable ability. Incidentally, due to the essence of loosely stacking of J-type aggregates, reversible disassembly of the systems has also ensued. In particular, biocompatible PT-PVA shows excellent cell-labeling and sustained-drug-release abilities. This system promises potential applications in preparing sophisticated nanostructures and designing new sustained-drug-release systems from simple small molecules. The association of some small molecules such as benzene and phthalimide with non-amphiphilic homopolymeric low-entropy chains such as PVAc, PVA, PVP, and PNIPAM has been realized by reversible addition-fragmentation chain transfer reaction (RAFT) method.
ISSN:1144-0546
1369-9261
DOI:10.1039/c7nj00772h