连翘叶的喇曼光谱鉴别

王玮; 席欣欣; 王蓓; 李建波; 景恒翠

doi:10.3969/j.issn.1001-3806.2011.05.026

连翘叶的喇曼光谱鉴别

1.
河南大学药学院, 开封 475004;
2.
河南大学物理与电子学院, 开封 475004

作者简介: 王玮(1964-)，男，副教授，博士，从事药物喇曼光谱分析学的研究工作。Email:wayne770@126.com.

中图分类号: R927.11

Raman spectrum analysis of forsythia leaves

1.
College of Pharmacy, Henan University, Kaifeng 475004, China;
2.
College of Physics and Electronic Information, Henan University, Kaifeng 475004, China
CLC number: R927.11

摘要: 为了通过喇曼光谱对不同采收期的连翘叶进行快速质量评价,采用RM-1000型共焦显微喇曼光谱仪获取其喇曼光谱图后,对其喇曼图谱进行比较的方法,进行了理论分析和实验验证,取得了不同采收时间的连翘叶喇曼光谱特征峰强度的数据。结果表明,连翘叶的喇曼峰主要位于700cm-1～1600cm-1和2600cm-1～3100cm-1范围内,这些特征喇曼峰和其主要有效成分连翘苷密切相关,可以用于连翘叶的定性鉴别;不同采收时间连翘叶的喇曼特征峰强度存在明显差异,可以用于连翘叶的质量评价。喇曼光谱对连翘叶的定性鉴别和质量评价具有直接快速、简单准确的优势,这一结果对中药的质量控制是有帮助的。
- 激光技术 /
- 医用光学与生物技术 /
- 定性鉴别 /
- 喇曼光谱 /
- 连翘叶
Abstract: In order to assess the quality of the forsythia leaves gathered in different periods rapidly, their Raman spectra were obtained with RM-1000 confocal microscopy laser Raman spectrometer, then the specific peaks of their Raman spectra were obtained after analysis and experiments. The Raman spectra of forsythia leaves show the main characteristic peaks are mainly in the range of 700cm-11600cm-1 and 2600cm-13100cm-1. The characteristic peaks are closely related with forsythin which is considered as the main active ingredient in the forsythia leaves and can be used for qualitative identification. The peak intensity in the spectra of forsythia leaves gathered in different periods is significantly different so that the quality of forsythia leaves can be evaluated. Raman spectra can be used for qualitative identification and evaluation of forsythia Leaves and it is direct, fast, simple and accurate. The results are useful for quality control of the traditional Chinese medicine.
- laser technique /
- medical optics and biotechnology /
- qualitative identification /
- Raman spectrum /
- forsythia leaves

[1]	WU L,OUYANG Zh H,CAO Sh Ch,et al.Research development and application of Raman scattering technology[J].Chinese Journal of Light Scattering,2005,17(2):180-186(in Chinese).ZHANG Q M,ZHANG X,LIU Zh X.Study on identification of principal constituent of fever-relieved and pain-refieved drugs by the handheld Raman spectrometer[J].Chinese Pharmaceutical Journal,2008,43(24):1903-1906(in Chinese).
[2]	ZHANG Q M,ZHANG X,LIU ZH X.Study on identification of principal constituent of fever-relieved and pain-refieved drugs by the handheld Raman spectrometer[J].Chinese Pharmacenutical Joumal,2008,43(24):1903-1906(in Chinese).
[3]	QU X B,ZHAO Y,SONG Y,et al.Raman spectroscopy study on the structure of ginsenoside Rg3 [J].Spectroscopy and Spectral Analysis,2008,28(3):569-571(in Chinese).
[4]	LIU W H,YANG W,WU X Q,et al.Direct determination of ethanol by laser Raman spectra with internal standard method[J].Chinese Journal of Analytical Chemistry,2007,35(10):1503-1505(in Chinese).
[5]	XU L L,DING K K,GUO X Q,et al.Raman spectra of salicylic acid,p-methoxybenzoic acid and metronidazole[J].Journal of Capital University of Medical Sciences,2006,27(6):785-787(in Chinese).
[6]	ZHAO Y Zh,LI Z W,GAO Sh Q,et al.Ultra-trace analysis of biological molecules in water by means of the resonance Raman spectra in liquid-core optical fiber[J].Laser Technology,2004,28(5):491-493(in Chinese).
[7]	NAN N,SHAO Y H,JIANG Y L,et al.Study of carotenoid in human skin by means of resonance Raman detection[J].Laser Techno-logy,2008,32(5):490-492(in Chinese).
[8]	YANG Ch H,SHI X H,LIU X B,et al.Study of Raman spectrum in detecting mineral substance concentration of drinking water[J].Laser Technology,2008,32(4):366-369(in Chinese).
[9]	WU X Q,ZHENG J Zh,LIU W H,et al.Quantitative determination of glucose by internal standard laser Raman spectra[J].Spectroscopy and Spectral Analysis,2007,27(7):1344-1346(in Chinese).
[10]	BELU A,MAHONEY C,WARMOUTH K.Chemical imaging of drug eluting coatings:combining surface analysis and confocal Raman microscopy[J].Journal of Controlled Release,2008,126(2):111-121.
[11]	ZHANG L,HENSON M,SEKULIC S.Multivariate data analysis for Raman imaging of a model pharmaceutical tablet[J].Analytica Chimica Acta,2005,545(2):262-278.
[12]	ZHANG G,LI F R,DUAN F,et al.Determination of phillyrin,forsythiaside and rutin in folium forsythia gathered in different periods[J].Natural Product Research and Development,2005,17(6):790-793(in Chinese).
[13]	LI F R,DUAN F,YANG J X.Comparative study on content of phillyrin in fructus forsythiae and leaves of forsythia (forsythia suspensa)[J].Acta Botanica Boreali-Occidentalia Sinica,2004,24(4):725-727(in Chinese).
[14]	ZHU S Y,YANG J X,LI F R.Effects of forsythia suspense leaves' extract on oxidative lesion in mice[J].Pharmacology and Clinics of Chinese Materia Medica,2004,20(1):18-20(in Chinese).
[15]	WU Y F,WANG X Sh,SHANG X J.Determination of phillyrin in green and grown fructus forsythiae from funiushan[J].Lishizhen Medicine and Materia Medica Research,2008,19(4):855-856(in Chinese).
[16]	ZHU Z Y,GU R A,LU T H.Raman spectroscopy in chemistry[M].Shengyang:Northeastern University Press,1998:79-84(in Chinese).

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连翘叶的喇曼光谱鉴别

作者简介: 王玮(1964-)，男，副教授，博士，从事药物喇曼光谱分析学的研究工作。Email:wayne770@126.com.

Raman spectrum analysis of forsythia leaves

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连翘叶的喇曼光谱鉴别

作者简介: 王玮(1964-)，男，副教授，博士，从事药物喇曼光谱分析学的研究工作。Email:wayne770@126.com

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Raman spectrum analysis of forsythia leaves

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连翘叶的喇曼光谱鉴别

作者简介: 王玮(1964-)，男，副教授，博士，从事药物喇曼光谱分析学的研究工作。Email:wayne770@126.com.

Raman spectrum analysis of forsythia leaves

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连翘叶的喇曼光谱鉴别

作者简介: 王玮(1964-)，男，副教授，博士，从事药物喇曼光谱分析学的研究工作。Email:wayne770@126.com

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Raman spectrum analysis of forsythia leaves

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