A new capillary electrophoresis apparatus was designed. Piezoelectric ceramics transformer technology was first applied in capillary electrophoresis, a high voltage and stable source was made. Amperometric detector wa...A new capillary electrophoresis apparatus was designed. Piezoelectric ceramics transformer technology was first applied in capillary electrophoresis, a high voltage and stable source was made. Amperometric detector was used in which the working electrode was closely opposite to the end of capillary. The apparatus was characterized in good reproducibility, safety and very low cost.展开更多
A carbon wire amperometric flow through detector is described which is easily constructed at low cost for application to flow injection analysis,continuous stream analysis and liquid chromatography.The theoretical lim...A carbon wire amperometric flow through detector is described which is easily constructed at low cost for application to flow injection analysis,continuous stream analysis and liquid chromatography.The theoretical limiting current of the detector is 2.14×10~6nCD^(2/3)u_f^(1/3) with 36% actual current efficiency.By use of flow injection analysis,the detecting limits for Ag(I)and Cr(VI)had achieved 1 ppb and 0.4 ppb respectively with 1.2%(n=20)relative standard deviation after preliminary experiments.展开更多
文摘A new capillary electrophoresis apparatus was designed. Piezoelectric ceramics transformer technology was first applied in capillary electrophoresis, a high voltage and stable source was made. Amperometric detector was used in which the working electrode was closely opposite to the end of capillary. The apparatus was characterized in good reproducibility, safety and very low cost.
基金This Project is supported by the National Science Foundation of China
文摘A carbon wire amperometric flow through detector is described which is easily constructed at low cost for application to flow injection analysis,continuous stream analysis and liquid chromatography.The theoretical limiting current of the detector is 2.14×10~6nCD^(2/3)u_f^(1/3) with 36% actual current efficiency.By use of flow injection analysis,the detecting limits for Ag(I)and Cr(VI)had achieved 1 ppb and 0.4 ppb respectively with 1.2%(n=20)relative standard deviation after preliminary experiments.
