This technical note describes kinetic fluorescence as an analytical technique to quantify non-fluorescent species. The technique is applied to the determination of thiamine (vitamin B1) in solution. Fluorescence intensity is monitored as thiamine converts to fluorescent thiochrome, and a relationship is established between the rate of increase of intensity and the concentration of thiamine. The technique is shown to have good sensitivity and selectivity.
本实验使用擅长在中性条件下分析碱性化合物的CAPCELL PAK MGII色谱柱,按照客户指定方法对其所提供注射用泮托拉唑钠样品进行分析。首先,按照有关物质项下方法进行分析,结果如图1、2。泮托拉唑钠峰理论塔板数为173948,远超标准要求的2500;杂质A与泮托拉唑钠主峰得到良好分离,分离度为7.83。 其次,按照有关物质项下杂质D、F的色谱条件与系统适用性方法进行分析,结果如图3、4。泮托拉唑钠峰理论塔板数为18314,杂质D、F之间分离度为1.24,符合分离度不小于1.2的要求。 接下来,按照含量测定项下方法进行分析,结果如图5。泮托拉唑钠峰理论塔板数为20149,超过要求的2500。
Water-Raman transitions are detectable across a large spectral range. Therefore, the Fluorolog ® demonstrates high sensitivity to fluorescence throughout the UV- visible region see if your system can handle this task. Kinematically mounted gratings allow optimization of the spectrofluorometer custom applications at various wavelengths. Gratings, blazed at different wavelengths and optimized for different spectral regions, are changed easily with instant alignment. The Fluorolog reaches the statistical noise limit: this means that we provide the best system possible. Water-Raman experiments prove that the bench-top FluoroMax ® is superior in every respect.?