An analytical method combining microfluidic flow injection analysis (μFIA) with thermal lens microscopy (TLM) was developed for high throughput and sensitive analysis of sub-μL samples. Performance of the μFIA-TLM was validated for detection of hexavalent chromium [Cr(VI)] in water samples. At different sample injection volumes, detection positions and flow rates, influences of the reaction time and the diffusion of Cr-diphenylcarbazone (DPCO) complexes on the μFIA-TLM signal were investigated. Photodegradation of the Cr-DPCO complex was clearly observed when the absorbed photons per Cr-DPCO is above 1600. After optimization of the TLM with respect to rapid flows (up to 10 cm/s), we achieved a limit of detection of 0.6 ng/mL for Cr(VI) in a 50-μm deep channel. Impacts of interfering ions [V(V), Mo(VI), Fe(III)] on the Cr(VI) determination were found to be small. Cr(VI) in real samples from a cement factory were determined and found in good agreement with results of spectrophotometry. This μFIA-TLM shows advantages over its conventional counterpart, such as eliminating additional sample conditioning, reducing over 100 times the sample consumption to sub-μL and over 10 times the time required for one sample injection to a few seconds (up to 20 samples/min). The optimized μFIA-TLM setup can be applied for fast and sensitive analysis of nonfluoresent sub-μL samples in rapidly flowing mediums.
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机译:开发了一种将微流体流动注射分析(μFIA)与热透镜显微镜(TLM)结合使用的分析方法,可对亚μL样品进行高通量分析和灵敏分析。验证了μFIA-TLM的性能,可检测水样中的六价铬[Cr(VI)]。在不同的进样量下,研究了检测位置和流速,反应时间以及Cr-二苯基卡巴zone(DPCO)配合物扩散对μFIA-TLM信号的影响。当每个Cr-DPCO的吸收光子大于1600时,可以清楚地观察到Cr-DPCO络合物的光降解。在针对快速流动(高达10 cm / s)优化TLM之后,我们实现了0.6 ng的检出限50微米深通道中的Cr(VI)/ mL发现干扰离子[V(V),Mo(VI),Fe(III)]对Cr(VI)测定的影响很小。测定了水泥厂真实样品中的六价铬,并与分光光度法的结果相吻合。这款μFIA-TLM具有优于传统同类产品的优势,例如消除了额外的样品处理,将样品消耗降低至亚μL的100倍以上,并将一次进样所需的时间减少了10倍以上,几秒钟(最多20个样品/分钟)。优化的μFIA-TLM设置可用于快速流动介质中非荧光亚μL样品的快速灵敏分析。
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