A new protein analysis method by the use of sulfanilic acid-hydrogen peroxide(H2O2)-Co2+ system was described. The method was based on the inhibition effect of protein on the catalytic activity of Co2+ for the colorat...A new protein analysis method by the use of sulfanilic acid-hydrogen peroxide(H2O2)-Co2+ system was described. The method was based on the inhibition effect of protein on the catalytic activity of Co2+ for the coloration of sulfanilic acid. It took advantages of rather mild assay condition(pH 9.0), similar responses for albumin and globulin, and little interference. The assay could have a dynamic range of 0-1.00 mg/mL with a detection limit of about 0.01 mg/mL.展开更多
Sulfanilic acid has been found to be an efficient catalyst for the synthesis of 1,5-benzodiazepines from o-phenylenediamine and ketones. This method is simple, effective and environmentally friendly and gives better y...Sulfanilic acid has been found to be an efficient catalyst for the synthesis of 1,5-benzodiazepines from o-phenylenediamine and ketones. This method is simple, effective and environmentally friendly and gives better yields.展开更多
Low density polyethylene film surface-grafted phenolic resole was prepared by a sequential processes. Firstly, acrylic acid was grafted to the surface of low density polyethylene by photo-grafting. Secondly, the carbo...Low density polyethylene film surface-grafted phenolic resole was prepared by a sequential processes. Firstly, acrylic acid was grafted to the surface of low density polyethylene by photo-grafting. Secondly, the carboxylic groups in poly(acrylic acid) chains were transferred to sulfonic groups by the reaction of carboxylic groups with sulfanilic acid. Finally, a thin layer of phenolic resole was cured onto the surface of low density polyethylene. The grafting process was characterized by FTIR-ATR and gravimetric analysis. A possible model was proposed to interpret the experimental results.展开更多
A new highly sensitive method (detection limit: 4.1 ag spofx, sample volume: 0.4 gL spot^·l) for the determination of trace Hg2^2+ by catalytic solid substrate-room temperature phosphorimetry has been establ...A new highly sensitive method (detection limit: 4.1 ag spofx, sample volume: 0.4 gL spot^·l) for the determination of trace Hg2^2+ by catalytic solid substrate-room temperature phosphorimetry has been established in this paper. This method has been successfully applied to determine trace Hg6^2+ in water.展开更多
文摘A new protein analysis method by the use of sulfanilic acid-hydrogen peroxide(H2O2)-Co2+ system was described. The method was based on the inhibition effect of protein on the catalytic activity of Co2+ for the coloration of sulfanilic acid. It took advantages of rather mild assay condition(pH 9.0), similar responses for albumin and globulin, and little interference. The assay could have a dynamic range of 0-1.00 mg/mL with a detection limit of about 0.01 mg/mL.
文摘Sulfanilic acid has been found to be an efficient catalyst for the synthesis of 1,5-benzodiazepines from o-phenylenediamine and ketones. This method is simple, effective and environmentally friendly and gives better yields.
文摘Low density polyethylene film surface-grafted phenolic resole was prepared by a sequential processes. Firstly, acrylic acid was grafted to the surface of low density polyethylene by photo-grafting. Secondly, the carboxylic groups in poly(acrylic acid) chains were transferred to sulfonic groups by the reaction of carboxylic groups with sulfanilic acid. Finally, a thin layer of phenolic resole was cured onto the surface of low density polyethylene. The grafting process was characterized by FTIR-ATR and gravimetric analysis. A possible model was proposed to interpret the experimental results.
基金supported by Fujian Province Natural Science Foundation(No.C 0510028,D 0510027).
文摘A new highly sensitive method (detection limit: 4.1 ag spofx, sample volume: 0.4 gL spot^·l) for the determination of trace Hg2^2+ by catalytic solid substrate-room temperature phosphorimetry has been established in this paper. This method has been successfully applied to determine trace Hg6^2+ in water.
