In this work,a monomer with double bond was introduced to the surface of clay nanosheets via inclusion complexation between cyclodextrin(CD)host and azobenzene(Azo)guest,as well as electrostatic interaction betwee...In this work,a monomer with double bond was introduced to the surface of clay nanosheets via inclusion complexation between cyclodextrin(CD)host and azobenzene(Azo)guest,as well as electrostatic interaction between clay nanoplatelets and cations of azobenzene derivatives.The obtained suprastructure acts as a supramolecular cross-linker in its copolymerization with macromonomer PEG resulting in a hybrid supramolecular hydrogel.Only viscous liquid was obtained in the absence of clay nanoplatelets,revealing the supramolecular cross-linker played an important role in the hydrogel formation.Such hybrid supramolecular hydrogel exhibited good stability and shear thinning property.展开更多
A novel supramolecular graft copolymer (SGP) composed of viologen-containing copolymer (P(DMA-co- diEV)) as the main chain and Np ended PNIPAM (Np-PNIPAm) as the grafts is prepared (DMA: N,N- dimethylacryami...A novel supramolecular graft copolymer (SGP) composed of viologen-containing copolymer (P(DMA-co- diEV)) as the main chain and Np ended PNIPAM (Np-PNIPAm) as the grafts is prepared (DMA: N,N- dimethylacryamide, diEV: ethylviologen dimer, Np: naphthalene, PNIPAM: poly(N-isopropylacrylamide)). The grafting is based on the triple complexation among a host of cucurbit[8]uril (CB[8]) and two guests of diEV and Np, which is characterized by UV-vis spectra and ITC. Temperature sensitive property of PNIPAm moiety allows SGP to self-assemble into non-covalently connected micelle (NCCM) at high temperature. The micelles are sensitive to reducing agents, for example Na2S203, which breaks the current inclusion complex pair and induces aggregation.展开更多
In this paper, dynamic covalent bond has been employed to construct supra-amphiphile of carbohydrate for the first time. In neutral environment, the molecule was fabricated by reacting a hydrophobic building block bea...In this paper, dynamic covalent bond has been employed to construct supra-amphiphile of carbohydrate for the first time. In neutral environment, the molecule was fabricated by reacting a hydrophobic building block bearing benzoic aldehyde with a hydrophilic building block bearing hydrazine to form a sugar-containing supra-amphiphile based on acylhydrazone bond, The obtained azobenzene- galactopyranoside (Azo-Gal) supra-amphiphile self-assembled to fibrillar structure in water, which showed dual responses to UV light and pH.展开更多
Herein, we designed a novel amphiphilic triblock glycopolymer poly(oligo(ethyleneglycol) methacry- late)-block-poly(maltopyranoside methacrylate)-block-polystyrene (POMA-b-PMal-b-PS) via the com- bination of r...Herein, we designed a novel amphiphilic triblock glycopolymer poly(oligo(ethyleneglycol) methacry- late)-block-poly(maltopyranoside methacrylate)-block-polystyrene (POMA-b-PMal-b-PS) via the com- bination of reversible addition-fragmentation chain transfer (RAFT) polymerization and post- polymerization modification. The micelles with core-shell-corona structures were prepared by direct self-assembly of this glycopolymer in water. We found that these micelles can be used in in situ formation and stabilization of AuNPs. By controlling the thickness of glyco-shell, we successfully obtained lanus particles and raspberry-like particles with AuNPs in the sugar shell.展开更多
基金National Natural Science Foundation of China (No. 21204022)Research Fund for the Doctoral Program of Higher Education of China (No. 20120076120005)+1 种基金the Fundamental Research Funds for the Central Universitiesthe Large Instruments Open Foundation of East China Normal University (No. 201409251425)
文摘In this work,a monomer with double bond was introduced to the surface of clay nanosheets via inclusion complexation between cyclodextrin(CD)host and azobenzene(Azo)guest,as well as electrostatic interaction between clay nanoplatelets and cations of azobenzene derivatives.The obtained suprastructure acts as a supramolecular cross-linker in its copolymerization with macromonomer PEG resulting in a hybrid supramolecular hydrogel.Only viscous liquid was obtained in the absence of clay nanoplatelets,revealing the supramolecular cross-linker played an important role in the hydrogel formation.Such hybrid supramolecular hydrogel exhibited good stability and shear thinning property.
基金Ministry of Science and Technology of China(Nos. 2011CB932503 and 2009CB930402)National Natural Science Foundation of China(No.91227203) are acknowledged for their financial support
文摘A novel supramolecular graft copolymer (SGP) composed of viologen-containing copolymer (P(DMA-co- diEV)) as the main chain and Np ended PNIPAM (Np-PNIPAm) as the grafts is prepared (DMA: N,N- dimethylacryamide, diEV: ethylviologen dimer, Np: naphthalene, PNIPAM: poly(N-isopropylacrylamide)). The grafting is based on the triple complexation among a host of cucurbit[8]uril (CB[8]) and two guests of diEV and Np, which is characterized by UV-vis spectra and ITC. Temperature sensitive property of PNIPAm moiety allows SGP to self-assemble into non-covalently connected micelle (NCCM) at high temperature. The micelles are sensitive to reducing agents, for example Na2S203, which breaks the current inclusion complex pair and induces aggregation.
基金National Natural Science Foundation of China (Nos.91527305,21474020,91227203 and 51322306)the Innovation Program of the Shanghai Municipal Education Commission are acknowledged for their financial support
文摘In this paper, dynamic covalent bond has been employed to construct supra-amphiphile of carbohydrate for the first time. In neutral environment, the molecule was fabricated by reacting a hydrophobic building block bearing benzoic aldehyde with a hydrophilic building block bearing hydrazine to form a sugar-containing supra-amphiphile based on acylhydrazone bond, The obtained azobenzene- galactopyranoside (Azo-Gal) supra-amphiphile self-assembled to fibrillar structure in water, which showed dual responses to UV light and pH.
基金Ministry of Science and Technology of China (No. 2011CB932503332)National Natural Science Foundation of China (No. 91227203, 21474020 and 51322306)the Shanghai Rising-Star Program (No. 13QA1400600) are acknowledged for their financial support
文摘Herein, we designed a novel amphiphilic triblock glycopolymer poly(oligo(ethyleneglycol) methacry- late)-block-poly(maltopyranoside methacrylate)-block-polystyrene (POMA-b-PMal-b-PS) via the com- bination of reversible addition-fragmentation chain transfer (RAFT) polymerization and post- polymerization modification. The micelles with core-shell-corona structures were prepared by direct self-assembly of this glycopolymer in water. We found that these micelles can be used in in situ formation and stabilization of AuNPs. By controlling the thickness of glyco-shell, we successfully obtained lanus particles and raspberry-like particles with AuNPs in the sugar shell.
