光谱学与光谱分析 |
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The Chemical and Structural Analysis of Tibetan Medicine Fanshi |
LI Cen1, Lengbencairang2, Sanglao2, Gongbudongzhi2, DU Yu-zhi1, WEI Li-xin1* |
1. Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, China 2. Gansu Province Academy of Tibetan Medicine, Hezuo 747000, China |
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Abstract The element and microstructure of Tibetan medicine Fanshi were investigated, in order to explore the material basis of Fanshi. X-ray fluorescence spectroscope (XRF), inductively coupled plasma optical emission spectrometer (ICP-OES) and X-ray diffraction (XRD) were used to assay the Fanshi samples from different Tibetan regions. XRF and ICP-OES analysis show that the main elements in Fanshi are Ca, O and C, but also contain some kinds of minor elements, such as Mg, Al, Na, Si, K, Ag, Ba, Fe, Mn, S, Sr, Zn and so on. XRD analysis shows that the main material structures in Fanshi are (MgxCa1-x)CO3 (rhombohedral, R-3c) and CaCO3(rhombohedral, R-3c), but also exists a small quantity of CaCO3(orthorhombic, Pmcn), SiO2 (hexagonal, P3221), etc. The data of element and structure in Tibetan medicine Fanshi have been acquired by XRD, ICP-OES and XRD, and that is beneficial to exploring the material basis of Fanshi.
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Received: 2011-03-30
Accepted: 2011-07-15
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Corresponding Authors:
WEI Li-xin
E-mail: lxwei@nwipb.ac.cn
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[1] LI Gang, PAN Jun-wei, WANG Ke-yu, et al(李 钢, 潘俊伟, 王克宇, 等). Jiangsu Traditional Chinese Medicine(江苏中医药), 2008, 40(4): 61. [2] LIU Yan-li, KONG Zeng-ke(刘艳丽, 孔增科). Chin. J. Pharm. Anal.(药物分析杂志), 27(4): 595. [3] LI Gang, ZHOU Xiao-feng, CHENG Yong-ke, et al(李 钢, 周小峰, 程永科, 等). Chin. J. Pharm. Anal.(药物分析杂志), 2008, 28(12): 2103. [4] WANG Jin-yu(王进玉). Shanghai Journal of Traditional Chinese Medicine(上海中医药杂志), 1998, 12: 30. [5] WANG Jia-kui(王家葵). Journal of Chinese Medicine Materials(中药材), 1990, 23(3): 39. [6] Chinese Pharmacopoeia, 2010, Ⅰ(中国药典2010年版, 一部), 2010. 99, 166. [7] De’u dMar dge bShes bstan ’dzin Phun tshogs(帝玛尔·丹增彭措). Crystal Materia(晶珠本草). Shanghai: Shanghai Science and Technology Press(上海: 上海科学技术出版社), 1986. 40. [8] LUO Da-shang(罗达尚). New Repair Crystal Materia(新修晶珠本草). Sichuan: Sichuan Science and Technology Press(成都: 四川科学技术出版社), 2004. 83. [9] Ga-maqunpei(葛玛群培). Herbal Manna Mirror(甘露本草明镜). Tibet: Tibetan People Press(西藏: 西藏人民出版社), 1993. 569.
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