光谱学与光谱分析 |
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Vibrational Spectra of Corallium Elatius |
FAN Lu-wei1*, ZHANG Yan2, HU Yang3 |
1. Yifu Museum, China University of Geosciences, Wuhan 430074, China 2. Press Company, China University of Geosciences, Wuhan 430074, China 3. Gemology Institute, China University of Geosciences, Wuhan 430074, China |
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Abstract Corallium elatius, which has unique color distribution characteristic, is the most important species of Taiwan precious corals. EPMA, XRD, FTIR and Laser Raman detective methods were used to study the chemical, mineral composition and spectra characteristics of Corallium elatius. The result of EPMA, XRD and FTIR shows the high-Mg calcite mineral component and the stable minor chemical constituents of the samples. Meanwhile, the cell parameter indicates the lattice distortion and the preferred orientation of calcite grain caused by organic matter. The red part of the samples shows a different Raman spectrum from that of the white part, located at 1 517/1 128 cm-1 and 1 296/1 016 cm-1. Raman scattering measurement reveals the relationship between the organic matter and color.
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Received: 2012-12-12
Accepted: 2013-03-10
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Corresponding Authors:
FAN Lu-wei
E-mail: luwei.fan@gmail.com
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[1] Walton J. Gemmologist, 1959, 28(355): 105. [2] Liverino B. Red Coral:Jewel of the Sea. Bologna,Italy:Malvasia Analisi Trend, 1989. [3] Dauphin Y. Comparative Biochemistry and Physiology, 2006, 145(1): 54. [4] Henn U. Gemmologie: Zeitschrift der Deutshen Gemmologischen Gesellschaft, 2006, 55(3/4): 77. [5] Chen Chinshin. Marine Policy, 2012, (36): 623. [6] ZOU Ren-lin, GAN Zi-jun, CHEN Shao-mou, et al(邹仁林,甘子钧,陈绍谋,等). The Red Coral(红珊瑚). Beijing: Science Press(北京:科学出版社),1993. [7] Rolandi V, Brajkovic A, Adamo I, et al. The Australian Gemmologist, 2005, 22(7): 285. [8] Bocchi R,Bracco S,Brajkovic A,et al. The Australian Gemmologist, 2006, 22(12): 524. [9] Kaczorowska B, Hacura A, Kupka T, et al. Analytical and Bioanalytical Chemistry, 2003, 377(6): 1032. [10] Raz S, Hamilton P C, Wilt F H, et al. Advanced Functional Materials, 2003, 13(6): 480. [11] ZHANG Yong-wang, LIU Yan, LIU Tao-tao(张永旺,刘 琰,刘涛涛). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2012,32(2):398.
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