光谱学与光谱分析 |
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Unique Optical Reflection Spectra of Bivalve Nacre and Its Origin |
ZHANG Wei-gang, WANG Gang, YAN Jun, LI Hao-xuan, ZHANG Gang-sheng* |
College of Chemistry and Chemical Engineering, Guangxi University, Nanning 530004, China |
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Abstract The structural color and microstructure of nacre in bivalve shells of Pinctada maxima were investigated by optical reflection spectra, scanning electron microscopy and theoretical simulation. The following results are obtained: (1)The thickness of aragonite tablets decreased significantly from growing to central region of nacre, which leads to a blue-shift of reflection peak wavelength with the same reflection order obviously; (2)The structural color of nacre in bivalve shells of Pinctada maxima is derived from the combination effects of aragonite-protein multilayer structure and yellow pigments in nacre.
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Received: 2008-01-29
Accepted: 2008-05-05
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Corresponding Authors:
ZHANG Gang-sheng
E-mail: zhanggs@gxu.edu.cn
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[1] DING Shi-lei, ZHANG Gang-sheng(丁世磊,张刚生). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2006,26(12): 2200. [2] Metzler Rebecca A, Abrecht Mike, Olabisi Ronke M, et al. Physical Review Letters, 2007, 98(26): 268102. [3] Brink D J, Vander berg N G, Botha A J. Appl. Opt., 2002, 41: 717. [4] Towe Kenneth M, Harper Jr Charles W. Science, New Series, 1966, 154(3745): 153. [5] Alexander A, Sherwood H. Gemmologist, 1940, 10: 48. [6] LI Bo, ZHOU Ji, LI Long-tu, et al(李 勃, 周 济, 李龙土, 等). Chinese Science Bulletin(科学通报), 2005, 50(13): 1422. [7] Tan T L, Wong D, Lee P. Opt. Express, 2004, 12(20): 4847. |
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