光谱学与光谱分析 |
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Study on Quality Control of Traditional Chinese Medicine Ginseng Injection with Fourier Transform Infrared Spectroscopy |
CHEN Jian-bo1,ZHOU Qun1,SUN Su-qin1*,YU Lu1,XU Kang-ya2 |
1. Key Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology (Ministry of Education),Department of Chemistry,Tsinghua University,Beijing 100084,China 2. Ya’an Sanjiu Pharmaceutical Co. Ltd.,Ya’an 625000,China |
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Abstract Three kinds of traditional Chinese medicine injection samples were systematically studied via FTIR spectroscopy combined with second derivative and 2D correlation IR spectroscopy. Comparison was successfully made among different kinds and batches of the medicine samples. In conclusion,the multi-steps IR macro-fingerprint method was demonstrated to be a rapid,simple and reliable method in the quality control of traditional Chinese medicine injection.
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Received: 2006-05-30
Accepted: 2006-09-06
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Corresponding Authors:
SUN Su-qin
E-mail: sunsq@tsinghua.edu.cn
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Cite this article: |
CHEN Jian-bo,ZHOU Qun,SUN Su-qin, et al. Study on Quality Control of Traditional Chinese Medicine Ginseng Injection with Fourier Transform Infrared Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2007, 27(08): 1493-1496.
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URL: |
https://www.gpxygpfx.com/EN/Y2007/V27/I08/1493 |
[1] SUN Su-qin,ZHOU Qun,YU Jian-yuan,et al(孙素琴,周 群,郁鉴源,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2000,20(2): 199. [2] SUN Su-qin,ZHANG Xuan,QIN Zhu,et al(孙素琴,张 宣,秦 竹,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),1999,19(4): 542. [3] Zuo L,Sun S Q,Zhou Q,et al. Journal of Pharmaceutical and Biomedical Analysis,2003,30(5): 1491. [4] Zhou Q,Sun S Q,Zuo L. Vibrational Spectroscopy,2004,36(2): 207. [5] SUN Su-qin,ZHOU Qun,QIN Zhu(孙素琴,周 群,秦 竹). Atlas of Two-dimensional Correlation Infrared Spectroscopy for Traditional Chinese Medicine Identification(中药二维相关红外光谱鉴定图集). Beijing: Chemical Industry Press(北京: 化学工业出版社),2003. |
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