Microporous polyamide-6 membranes were hydrolyzed in 0.01 mol/L NaOH/CH 3OH medium by refluxing for about 36 h. By investigating the UV spectra, the hydrolyzing conditions were optimized. A pH value of 12 and reaction...Microporous polyamide-6 membranes were hydrolyzed in 0.01 mol/L NaOH/CH 3OH medium by refluxing for about 36 h. By investigating the UV spectra, the hydrolyzing conditions were optimized. A pH value of 12 and reaction time of 36 h are the preferred conditions for hydrolysis. The treated membrane can be applied for in site synthesis of oligonucleotide and, for example, the oligonucleotide probes of 5′-AACCACCAAACACAC-3′ were successfully synthesized on the hydrolyzed membrane,which was proved by the high resolution X-ray photoelectron spectroscopy(XPS) of P 2p. The single step coupling efficiency was determined by UV spectra to be in excess of 98 %.展开更多
Electrically conductive composite films ofpolyaniline and nylon-6.6 are prepared by diffusing aniline followed by oxidative polymerization of aniline into nylon-6.6 matrix. In order to determine the diffusion coeffici...Electrically conductive composite films ofpolyaniline and nylon-6.6 are prepared by diffusing aniline followed by oxidative polymerization of aniline into nylon-6.6 matrix. In order to determine the diffusion coefficient for the chloride ion diffusion into the composite matrix electrochemically, galvanostatic pulse method is used and the diffusion coefficient is estimated to be -6.48× 10^-17 cm^2s^-1. The results are discussed in view of them being potential replacement materials for battery. electrodes and sensors devices.展开更多
文摘Microporous polyamide-6 membranes were hydrolyzed in 0.01 mol/L NaOH/CH 3OH medium by refluxing for about 36 h. By investigating the UV spectra, the hydrolyzing conditions were optimized. A pH value of 12 and reaction time of 36 h are the preferred conditions for hydrolysis. The treated membrane can be applied for in site synthesis of oligonucleotide and, for example, the oligonucleotide probes of 5′-AACCACCAAACACAC-3′ were successfully synthesized on the hydrolyzed membrane,which was proved by the high resolution X-ray photoelectron spectroscopy(XPS) of P 2p. The single step coupling efficiency was determined by UV spectra to be in excess of 98 %.
文摘Electrically conductive composite films ofpolyaniline and nylon-6.6 are prepared by diffusing aniline followed by oxidative polymerization of aniline into nylon-6.6 matrix. In order to determine the diffusion coefficient for the chloride ion diffusion into the composite matrix electrochemically, galvanostatic pulse method is used and the diffusion coefficient is estimated to be -6.48× 10^-17 cm^2s^-1. The results are discussed in view of them being potential replacement materials for battery. electrodes and sensors devices.
