拉曼光谱检测水中痕量甲基膦酸

基于化学增强理论, 选取了银、镍和铁等过渡金属离子与甲基膦酸(MPA)分子进行络合, 采用拉曼光谱技术对水相中微量的甲基膦酸进行检测。结果表示, 银离子对于水相中甲基膦酸的拉曼增强效果最佳; 并且添加银离子后并不影响其定性检测; 进一步的条件优化实验表明, 随着银离子添加量的增加, 增强效果会先增大后减小, 当CMPA∶CAg+=1∶1时增强效果达到最佳, 检测下限为20 pg。

Abstract

For the detection of methyl phosphonic acid (MPA) in water we choose several kinds of transition metal ions (Ag+, Ni2+ and Fe2+, etc) to chelate with it through the chemical enhancement mechanism.It is found that the Ag+ as a strong electron donating groups to chelate with MPA leading to the highest enhancements.There was no effect on the qualitative detection of MPA when adding Ag+.The experiments results of optimizations show that along increasing concentration of Ag+, MPA Raman spectroscopy intensity firstly increased and then decreased.There was an optimized concentration of Ag+ when the CMPA∶CAg+=1∶1.The limit of detection of MPA in water was around 20 pg.

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王楠, 程振兴, 张鸿鹏, 黄志平, 刘广强, 蔡伟平. 拉曼光谱检测水中痕量甲基膦酸[J]. 光散射学报, 2016, 28(1): 23. WANG Nan, CHENG Zhen-xing, ZHANG Hong-peng, HUANG Zhi-ping, LIU Gung-qiang, CAI Wei-ping. Raman Spectroscopy for Phosphonic Acid Detection in Water[J]. The Journal of Light Scattering, 2016, 28(1): 23.

拉曼光谱检测水中痕量甲基膦酸

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