Objective The correlation between various formative conditions and the pore characterizationsof the anodic alumina membrane is investigated to seek the optimal conditions for the formation of anodic aluminamembrane. M...Objective The correlation between various formative conditions and the pore characterizationsof the anodic alumina membrane is investigated to seek the optimal conditions for the formation of anodic aluminamembrane. Methods High purity aluminum foils are used as the starting materials. The anodization is conduc-ted in three types of electrolytes, 3% sulfuric acid, 5% sulfuric acid and 2. 7% oxalic acid, respectively, with dif-ferent voltages at for 48h. The characterizations of the pore size, the effective porosity and the pore porosity areobserved and determined by scanning electron microscopy. The hydraulic conductances of the membranes are meas-ured to confirm that the pores are open and evaluate the permselectivity of the membranes. Results The experi-mental result shows that the ordered pore arrays are obtained for oxidation under our experimental conditions. Withthe increasing of the voltage, the pore size and pore porosity increased significantly (P <0.05) , while the effectiveporosity decreased significantly (P <0.05) with the same electrolyte. The pore size formed in 3% sulfuric acid or5% sulfuric acid is much smaller than in 2. 7% oxalic acid as an electrolyte. The hydraulic conductance of anodicalumina membrane that formed under our experimental condition is higher than those of the membranes are availablecurrently used in clinical. Conclusion The results suggest that the optimal conditions for the formation of anodicalumina membrane that used in hemodialysis are in 3% or 5% sulfuric acid with 12. 5V to 17. 5V at for 48h.展开更多
Electrocarboxylation ofbenzalacetone was studied in the presence of an atmospheric pressure of CO2 The only carboxylic product obtained was α-phenyl levulinic acid in a one-compartment electrochemical cell equipped w...Electrocarboxylation ofbenzalacetone was studied in the presence of an atmospheric pressure of CO2 The only carboxylic product obtained was α-phenyl levulinic acid in a one-compartment electrochemical cell equipped with a Mg sacrificial anode at the controlled potential conditions. Influences of the solvents, the electrolytes, the cathode materials, the electrolysis potentials, the concentrations of substrate and the temperatures were studied to improve the yield. The maximal yield is 69% in MeCN-0.1 mol/L TEABF4 on Stainless steel-Mg under a controlled potential of-1.6 V vs.Ag/AgI until 2 F/mol of charge had passed through the cell at 0 ℃.展开更多
文摘Objective The correlation between various formative conditions and the pore characterizationsof the anodic alumina membrane is investigated to seek the optimal conditions for the formation of anodic aluminamembrane. Methods High purity aluminum foils are used as the starting materials. The anodization is conduc-ted in three types of electrolytes, 3% sulfuric acid, 5% sulfuric acid and 2. 7% oxalic acid, respectively, with dif-ferent voltages at for 48h. The characterizations of the pore size, the effective porosity and the pore porosity areobserved and determined by scanning electron microscopy. The hydraulic conductances of the membranes are meas-ured to confirm that the pores are open and evaluate the permselectivity of the membranes. Results The experi-mental result shows that the ordered pore arrays are obtained for oxidation under our experimental conditions. Withthe increasing of the voltage, the pore size and pore porosity increased significantly (P <0.05) , while the effectiveporosity decreased significantly (P <0.05) with the same electrolyte. The pore size formed in 3% sulfuric acid or5% sulfuric acid is much smaller than in 2. 7% oxalic acid as an electrolyte. The hydraulic conductance of anodicalumina membrane that formed under our experimental condition is higher than those of the membranes are availablecurrently used in clinical. Conclusion The results suggest that the optimal conditions for the formation of anodicalumina membrane that used in hemodialysis are in 3% or 5% sulfuric acid with 12. 5V to 17. 5V at for 48h.
基金Acknowlegement: This work was supported by National Nature Science Foundation of China (No. 20573037), the Natural Science Foundation of Shanghai (No. 05JC470) and Shanghai Leading Academic Discipline Project (No. B409).
文摘Electrocarboxylation ofbenzalacetone was studied in the presence of an atmospheric pressure of CO2 The only carboxylic product obtained was α-phenyl levulinic acid in a one-compartment electrochemical cell equipped with a Mg sacrificial anode at the controlled potential conditions. Influences of the solvents, the electrolytes, the cathode materials, the electrolysis potentials, the concentrations of substrate and the temperatures were studied to improve the yield. The maximal yield is 69% in MeCN-0.1 mol/L TEABF4 on Stainless steel-Mg under a controlled potential of-1.6 V vs.Ag/AgI until 2 F/mol of charge had passed through the cell at 0 ℃.
