ASTM E579-04(2015)由美国材料与试验协会 US-ASTM 发布于 2004。
4.1 When determining the limiting detectable concentration of a fluorescent substance, it is usually necessary to increase the readout scale of a photoelectric instrument to a point where noise (that is, random fluctuations of the system) becomes apparent. This noise will be superimposed upon the signal from the sample.
4.2 In molecular fluorescence spectroscopy, the limit of detection for the sample will be determined by the limiting signal-to-noise ratio, S/N, where the signal, S, is the difference between readings obtained with the sample and blank solutions, and N is the total root-mean-square (rms) noise. The limit of detection for the sample will be given by the instrument readings that give a signal equal to three times the rms value of the noise.
Note 2: Factors other than noise affecting the sample concentration corresponding to the limit of detection include: the spectral bandwidths of the excitation and emission monochromators, the intensity of the exciting light that can be concentrated on the sample, the fraction of the fluorescence collected by the detection system, the response time of the detection system, and the purity of the solvent. The size and arrangement of the sample container with respect to the light beams are also important, as they affect both the desired signal and the extraneous signal that only contributes noise.
Note 3: The value of rms noise (N) can be obtained by calculating the standard deviation of a series of readings of the signal from the sample at the peak emission wavelength at approximately 450 nm as follows: where: x = mean of the series of readings, x = value of the individual reading, and n = number of readings. Alternatively, rms noise may be estimated by noting the extreme differences between the members of a series of readings (peak-to-peak noise) and dividing by a factor that is usually taken to be 5.6,8201;化合物发射的荧光中各种波长组分的荧光强度.二、实验原理1.硫酸奎宁的分子 结构特征硫酸奎宁属生物碱类抗心率失常药,其分子具有喹啉环结构,可产生较强的荧光,可直接用荧光法测定其荧光强度,由校正曲线求出回归方程进而求出试样中奎宁的浓度.2.定量依据与方法(1)定量依据:在低浓度时,溶液的荧光强度与溶液中荧光物质的浓度呈线性关系If = Kc(2)定量方法:校正曲线法标准曲线法:配制一系列标准浓度试样测定荧光强度...
旧规程中荧光检测器检定用标准物质为硫酸奎宁-高氯酸水溶液, 由于硫酸奎宁为水溶性, 因此在检定过程中为了增加洗脱能力需要在流动相中加一定量的水。即便如此, 由于仪器的各种原因, 经常出现信号不理想等情况, 导致检定不能顺利进行。根据实验和以往经验, 本次修订中将其改为萘-甲醇溶液标准物质, 并通过实验验证, 避免了上述问题的出现。...
旧规程中荧光检测器检定用标准物质为硫酸奎宁-高氯酸水溶液, 由于硫酸奎宁为水溶性, 因此在检定过程中为了增加洗脱能力需要在流动相中加一定量的水。即便如此, 由于仪器的各种原因, 经常出现信号不理想等情况, 导致检定不能顺利进行。根据实验和以往经验, 本次修订中将其改为萘-甲醇溶液标准物质, 并通过实验验证, 避免了上述问题的出现。...
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