光谱学与光谱分析 |
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Determination of Constant and Trace Elements in Ranunculus Ternatus Thunb by ICP-AES |
CHEN Jun1,YAO Cheng1*,OUYANG Ping-kai2 |
1. College of Science, Nanjing University of Technology, Nanjing 210009, China 2. College of Life Science and Pharmacy, Nanjing University of Technology, Nanjing 210009, China |
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Abstract The determination of twenty one kinds of constant and trace elements in Chinese herb Ranunculus ternatus thunb was performed by ICP-AES. The results show that K, Fe, Ca, Cr, Mg, Mn, Zn, Co, Cu, Ni, Se and Sr are relatively rich in Ranunculus ternatus and the content of Pb, Cd and As are very low. The ratio of the content of Zn to that of Cu is about 3, which is consistent with the relative content level of Zn and Cu contained in many anticancer Chinese traditional plants.
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Received: 2003-01-08
Accepted: 2003-05-26
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Corresponding Authors:
YAO Cheng
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Cite this article: |
CHEN Jun,YAO Cheng,OUYANG Ping-kai. Determination of Constant and Trace Elements in Ranunculus Ternatus Thunb by ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2005, 25(04): 560-562 .
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URL: |
https://www.gpxygpfx.com/EN/Y2005/V25/I04/560 |
[1] JIANG Da-qu, HUANG Xiao-mei(姜达衢, 黄筱美). China Journal of Chinese Materia Medica(中国中药杂志),1993, 18(9): 550. [2] GUO Xue-min, ZHOU Zhuo-lun, HONG Yong-fu(郭学敏,周卓轮,洪永福). Acta Pharmaceutica Sinica(药学学报),1995, 30(12): 931. [3] ZHOU Li, ZHANG Wei, XU Jin et al(周 立, 张 炜, 许 津等). Acta Academiae Medicinae Sinicae(中国医学科学院学报),1995, 17(6): 456. [4] QUAN Shan-cong, WANG Xue-zhao, ZHENG Han-chen at al(全山从,王学昭,郑汉臣等). Studies of Trace Elements and Health(微量元素与健康研究), 1997, 14(2): 29. [5] RUI Li-xin(芮立新). Studies of Trace Elements and Health(微量元素与健康研究), 1995, 12(1): 18. [6] YU Zhan-yang(于占洋). Trace Elements and Health Care(微量元素与保健). Guangzhou: Guangdong S&T Publishing House(广州: 广东科技出版社), 1993. 53. [7] XIAO Chong-hou, LU Yun-ru(肖崇厚, 陆蕴如). Chemistry of Chinese Traditional Medicine(中药化学). Shanghai: Shanghai S&T Publishing House(上海: 上海科学技术出版社), 1987. 33.
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