The interaction of cetyl trimethylammonium bromide (CTAB)and an anionic copolymer derived from 3\|sulfopropylmethacrylate, potassium salt (SPMS) and styrene (St) in aqueous solutions has been studied. It was found tha...The interaction of cetyl trimethylammonium bromide (CTAB)and an anionic copolymer derived from 3\|sulfopropylmethacrylate, potassium salt (SPMS) and styrene (St) in aqueous solutions has been studied. It was found that the viscosity of the anionic copolymer\|CTAB solution rises suddenly in a specific molar ratio of CTAB/anion. For instance, the viscosity of polymer (No.1) solutions increases to about 20 times at CTAB/\|SO\-3K=1.0~1 05, and increases to about 100 times at CTAB/\|SO 3K=1.4~1 5. In the case of polymer samples No.2 and No.3, the changes of solution viscosity are similar to that of sample No.1, but the gelation takes place at CTAB/\|SO\-3K=1.4~1 5 region because of the lower negative charge density on No.2 and No.3 polymer chains. It is proposed that the dramatical change of the P(SPMS-co-St)/CTAB aqueous solution is ascribed to the aggregation behavior of CTAB, then the P(SPMS-co-St) aggregates. This consideration was verified by fluorescence determination and laser light scattering experiments. Using DMAF as fluoresscent probe, the hydrophobic microdomain existed in P(SPMS-co-St)/CTAB aqueous solutions in the viscosity rising region has been confirmed and it is in agreement well with the results obtained by laser light scattering determination.展开更多
Surface modification of poly [1-(trimethylsilyl)-1-propyne] (PTMSP) membranes bybromine vapor has been studied. It is shown that Br/C atomic ratio at the surfaces increased withthe time of bromination until about 60 m...Surface modification of poly [1-(trimethylsilyl)-1-propyne] (PTMSP) membranes bybromine vapor has been studied. It is shown that Br/C atomic ratio at the surfaces increased withthe time of bromination until about 60 min, then it reached a plateau. The results of XPS and IRstudies indicated that the addition of bromine to double bonds and the replacement of H on CH_3 bybromine had taken place so that a new peak at 286.0 eV (C--Br)in C_(1s) spectra and some newbands, e. g. at 1220 and 580cm^(-1) in IR spectra were formed. The fact,t Po_2, permeability ofoxygen, decreased and α_(O_2/N_2), separation factor of oxygen relative to nitrogen, increased withbromination time, shows that surface modification of PTMSP by bromine may be an efficient approach to prepare PTMSP membranes used for practical gas separations.展开更多
We have analyzed the photorefractive(PR) effect of a polymer composite was reported which combines a novel bi-functional poly(N-vinyl)-3-[p-nitrophenylazo]carbazolyl(PVNPAK) and 2,4,7-trinitro-9-fluorenone(TNF...We have analyzed the photorefractive(PR) effect of a polymer composite was reported which combines a novel bi-functional poly(N-vinyl)-3-[p-nitrophenylazo]carbazolyl(PVNPAK) and 2,4,7-trinitro-9-fluorenone(TNF). PVNPAK was synthesized by a post-azo-coupling reaction, with an azo derivative as the electrooptic chromophore and carbazolyl as photoconductive moiety. The asymmetric two-beam coupling gain of 13.9 cm-1 and diffraction efficiency of 1.2% for poled polymer film fabricated using a corona poling are obtained at the wavelength of 647.1 nm, confirming photorefractivity. We interpreted this result as the orientational enhancement, in which the spatial charge field may enhance the modulated orientation of the azobenzen chromophore. It is unexpected that the photorefractive gain of 9.5 cm-1 for the unpoled polymer film also was observed without external field in two-beam coupling(TBC) experiment. This phenomenon is attributed to a light-induced orientational grating when the azobenzene groups are illuminated by polarized light.展开更多
A new type of polymerizable ionic liquid (IL) 1-(3-aminobenzyl)-3-methylimidazolium chloride (AMIC) was synthesized to obtain a novel polymer salt poly(1-(3-aminobenzyl)-3-methylimidazolium chloride) (PAMIC...A new type of polymerizable ionic liquid (IL) 1-(3-aminobenzyl)-3-methylimidazolium chloride (AMIC) was synthesized to obtain a novel polymer salt poly(1-(3-aminobenzyl)-3-methylimidazolium chloride) (PAMIC). The AMIC was structurally characterized by mass spectrometry and Fourier transform infrared spectrometry (FTIR). The structure, morphology and properties of PAMIC were investigated by FTIR, ultraviolet visible absorption spectra (UV-Vis), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), conductivity measurement and thermo- gravimetric analysis (TGA). The PAMIC was spherulitic with an average diameter of about 50 nm and showed high conductivity and excellent thermal stability.展开更多
文摘The interaction of cetyl trimethylammonium bromide (CTAB)and an anionic copolymer derived from 3\|sulfopropylmethacrylate, potassium salt (SPMS) and styrene (St) in aqueous solutions has been studied. It was found that the viscosity of the anionic copolymer\|CTAB solution rises suddenly in a specific molar ratio of CTAB/anion. For instance, the viscosity of polymer (No.1) solutions increases to about 20 times at CTAB/\|SO\-3K=1.0~1 05, and increases to about 100 times at CTAB/\|SO 3K=1.4~1 5. In the case of polymer samples No.2 and No.3, the changes of solution viscosity are similar to that of sample No.1, but the gelation takes place at CTAB/\|SO\-3K=1.4~1 5 region because of the lower negative charge density on No.2 and No.3 polymer chains. It is proposed that the dramatical change of the P(SPMS-co-St)/CTAB aqueous solution is ascribed to the aggregation behavior of CTAB, then the P(SPMS-co-St) aggregates. This consideration was verified by fluorescence determination and laser light scattering experiments. Using DMAF as fluoresscent probe, the hydrophobic microdomain existed in P(SPMS-co-St)/CTAB aqueous solutions in the viscosity rising region has been confirmed and it is in agreement well with the results obtained by laser light scattering determination.
基金The project is supported by the National Natural Science Foundation of China
文摘Surface modification of poly [1-(trimethylsilyl)-1-propyne] (PTMSP) membranes bybromine vapor has been studied. It is shown that Br/C atomic ratio at the surfaces increased withthe time of bromination until about 60 min, then it reached a plateau. The results of XPS and IRstudies indicated that the addition of bromine to double bonds and the replacement of H on CH_3 bybromine had taken place so that a new peak at 286.0 eV (C--Br)in C_(1s) spectra and some newbands, e. g. at 1220 and 580cm^(-1) in IR spectra were formed. The fact,t Po_2, permeability ofoxygen, decreased and α_(O_2/N_2), separation factor of oxygen relative to nitrogen, increased withbromination time, shows that surface modification of PTMSP by bromine may be an efficient approach to prepare PTMSP membranes used for practical gas separations.
基金Funded by the National Natural Science Foundation of China(No.51303115)
文摘We have analyzed the photorefractive(PR) effect of a polymer composite was reported which combines a novel bi-functional poly(N-vinyl)-3-[p-nitrophenylazo]carbazolyl(PVNPAK) and 2,4,7-trinitro-9-fluorenone(TNF). PVNPAK was synthesized by a post-azo-coupling reaction, with an azo derivative as the electrooptic chromophore and carbazolyl as photoconductive moiety. The asymmetric two-beam coupling gain of 13.9 cm-1 and diffraction efficiency of 1.2% for poled polymer film fabricated using a corona poling are obtained at the wavelength of 647.1 nm, confirming photorefractivity. We interpreted this result as the orientational enhancement, in which the spatial charge field may enhance the modulated orientation of the azobenzen chromophore. It is unexpected that the photorefractive gain of 9.5 cm-1 for the unpoled polymer film also was observed without external field in two-beam coupling(TBC) experiment. This phenomenon is attributed to a light-induced orientational grating when the azobenzene groups are illuminated by polarized light.
基金financially supported by the Hunan Provincial Natural Science Foundation of China(Nos.11JJ3015 and 11JJ1009)
文摘A new type of polymerizable ionic liquid (IL) 1-(3-aminobenzyl)-3-methylimidazolium chloride (AMIC) was synthesized to obtain a novel polymer salt poly(1-(3-aminobenzyl)-3-methylimidazolium chloride) (PAMIC). The AMIC was structurally characterized by mass spectrometry and Fourier transform infrared spectrometry (FTIR). The structure, morphology and properties of PAMIC were investigated by FTIR, ultraviolet visible absorption spectra (UV-Vis), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), conductivity measurement and thermo- gravimetric analysis (TGA). The PAMIC was spherulitic with an average diameter of about 50 nm and showed high conductivity and excellent thermal stability.