| 光谱学与光谱分析 |
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| The Element Determination of Six Samples of Petal Powders by Using XRF Spectrometry |
| MEI Yan1, MA Mi-xia2, NIE Zuo-ren1 |
1. College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China
2. Special Education College of Beijing Union University, Beijing 100075, China |
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Abstract Elements and contents in three kinds of petal powders of white and red rose, carnation, and butterfly orchis were determined by using XRF technic, and the data for every group were compared and analysed. The results indicated that all powders contain no toxic elements determined but have lots of normal elements and trace elements, such as Fe, Cu, Zn, Mn, Ni, Si, Sr, and Rb. The same sort of powder had approximately equivalent elements but their contents are different, and the element content of the white sort. was higher than the red one.
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Received: 2012-01-18
Accepted: 2012-04-18
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Corresponding Authors:
MEI Yan
E-mail: meiyan@bjut.edu.cn
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[1] LUO Li-qiang, ZHAN Xiu-chun, LI Guo-hui(罗立强, 詹秀春, 李国会). X-Ray Fluorescence Spectrometer(X射线荧光光谱仪). Beijing: Chemical Industry Press(北京: 化学工业出版社), 2008. 5.
[2] JI Ang(吉 昂). X-Ray Fluorescence Spectrometry(X射线荧光光谱分析). Beijing: Science Press(北京: 科学出版社), 2003. 1.
[3] CHEN Zhi-hong, GONG Xian-ling, JIE Xin-ming, et al(陈志红, 龚先玲, 揭新明, 等). Studies of Trace Elements and Health(微量元素与健康研究),2005, 22(4): 27.
[4] YUAN Xiao-ling, LIU Lin(袁晓玲, 刘 临). Studies of Trace Elements and Health(微量元素与健康研究), 2009, 26(2): 39.
[5] BI Gui-hong(毕桂宏). Guide of China Medicine(中医中药), 2011, 9: 174.
[6] TAN Zhong-mo, YANG Fan, WEI Sheng-jian(谭忠谋, 杨 帆, 韦升坚). Central South Pharmacy(中南药学), 2011, 9(11): 844.
[7] ZHAO Ying, LIU Yu, JIN Yan, et al(赵 颖, 刘 瑜, 金 雁, 等). Chinese Journal of Analysis Laboratory(分析试验室), 2011, 30(12): 59.
[8] HU Wei-ping, YUAN Feng, XU Xiu-fen(胡伟平, 袁 峰, 徐秀芬). Journal of Harbin Medical University(哈尔滨医科大学学报), 2003, 37: 246.
[9] LIANG Cong, WU Shi-wei, WANG Li, et al(梁 聪, 吴仕伟, 王 立, 等). Medical Information(医学信息), 2011, 24(1): 158.
[10] WU Xi-ren, LI Shang-de, JIA Zhen-bin(吴喜仁, 李尚德, 贾振斌). Guangdong Trace Element Science(广东微量元素科学), 2006, 13(6): 14.
[11] Lü Wen, ZHOU Ling(吕 文, 周 玲). Foreign Medical Science: Subvolume of Medical Science Geography System(国外医学医学地理分册), 2007, 28(1): 36.
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