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• W2616402883 abstract "利用紫外–可见吸收光谱、荧光光谱和三维荧光光谱等技术研究了除草剂(百草枯、吡嘧磺隆)水溶液的光谱特性。结果表明，在相同的实验条件下，百草枯在257 nm处有特征吸收峰，吡嘧磺隆在228 nm处有特征吸收峰；百草枯和吡嘧磺隆水溶液的荧光光谱、三维荧光光谱具有显著的差异，百草枯的主要荧光区域分布在λexλem = 290~350 nm350~550 nm处，最佳激发波长为310 nm，峰值位置为431 nm，最大荧光强度为130.5；吡嘧磺隆荧光区域分布在λexλem = 220~245 nm320~380 nm和λexλem = 250~330 nm310~400 nm处有荧光，共有两处峰，峰值位置都为340 nm，激发波长分别在225 nm和285 nm处，最大荧光强度为793.6。本研究为除草剂残留的定性检测分析提供了实验参考。 To study the spectral characteristics of herbicide aqueous solution (paraquat, pyrazosulfuron ethyl), absorption spectra, fluorescence spectra and fluorescence spectra of three-dimensional technology are utilized. The result shows that the characteristic absorption peak of paraquat is at 257 nm and the characteristic absorption peak of pyrazosulfuron ethyl is at 228 nm under the same experimental conditions. Fluorescence spectroscopy and three-dimensional fluorescence spectrum of pyrazosulfuron ethyl is significantly different from those of paraquat aqueous solu-tion. Fluorescent areal distribution of paraquat is mainly in λexλem = 290 - 350 nm350 - 550 nm and the best excitation wavelength is at 310 nm, the peak position is at 431 nm, the maximum intensity of fluorescence is 130.5. There are two peaks of pyrazosulfuron ethyl regional distribution of fluorescence are in λexλem = 220 - 245 nm320 - 380 nm and λexλem = 250 - 330 nm310 - 400 nm fluorescence. Location of the both two peaks is at 340 nm and excitation wavelength of 285 nm and 225 nm respectively is at the maximum fluorescence intensity of 793.6. This study analyzed the qualitative detection of herbicides to provide a reference for the experiment." @default.
• W2616402883 created "2017-05-26" @default.
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• W2616402883 date "2017-01-01" @default.
• W2616402883 modified "2023-10-17" @default.
• W2616402883 title "Spectroscopic Studies on the Aqueous Solution of Commonly Used Herbicides" @default.
• W2616402883 cites W2376413230 @default.
• W2616402883 doi "https://doi.org/10.12677/app.2017.75017" @default.
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