McCreery R L, Horn A J, Spencer J, Jefferson E
Ohio State University, Department of Chemistry, Columbus 43210, USA.
J Pharm Sci. 1998 Jan;87(1):1-8. doi: 10.1021/js970330q.
A commercial dispersive Raman spectrometer operating at 785 nm with a CCD detector was used to acquire spectra of USP reference materials inside amber USP vials. The laser and collection beams were directed through the bottom of the vials, resulting in a 60% loss of signal. The Raman shift was calibrated with a 4-acetamidophenol standard, and spectral response was corrected with a luminescent standard. After these corrections, the Raman spectra obtained inside the USP vial and on open powders differed by less than 5%. A spectral library of 309 reference materials was constructed, with spectral acquisition times ranging from 1 to 60 s. Of these, 8% had significant fluorescent background but observable Raman features, while 3% showed only fluorescence. A blind test of 26 unknowns revealed the accuracy of the library search to be 88-96%, depending on search algorithm, and 100% if operator discretion was permitted. The tolerance of the library search to degraded signal-to-noise ratio, resolution, and Raman shift accuracy were tested, and the search was very robust. The results demonstrate that Raman spectroscopy provides a rapid, noninvasive technique for compound identification.
使用一台配备电荷耦合器件(CCD)探测器、工作波长为785 nm的商用色散拉曼光谱仪,采集美国药典(USP)琥珀色小瓶内USP参考物质的光谱。激光束和收集光束从瓶底穿过,导致信号损失60%。用对乙酰氨基酚标准品校准拉曼位移,并用发光标准品校正光谱响应。经过这些校正后,在USP小瓶内和开放粉末上获得的拉曼光谱差异小于5%。构建了一个包含309种参考物质的光谱库,光谱采集时间为1至60秒。其中,8%具有显著的荧光背景但有可观察到的拉曼特征,而3%仅显示荧光。对26个未知物进行的盲测表明,根据搜索算法,库搜索的准确率为88 - 96%,如果允许操作人员自行判断,则准确率为100%。测试了库搜索对降低的信噪比、分辨率和拉曼位移精度的耐受性,结果表明搜索非常稳健。结果表明,拉曼光谱法为化合物鉴定提供了一种快速、非侵入性的技术。
