Study on the Fluorescence Properties of Carbon Dots Prepared by One Step Microwave Method
WANG Shan-shan, MI Wei-qing, ZHU Hong, WANG Fang-hui*
State Key Laboratory of Organic-Inorganic Composites, Institute of Modern Catalyst, School of Science, Beijing University of Chemical Technology,Beijing 100029, China
Abstract:In recent years,more and more researchers pay attention to the synthesis of water-soluble fluorescent carbon dots. Compared with the traditional cadmium-based, silicon-based quantum dots and organic dyes, carbon dots with low toxicity and high stability can be chemically modified and be compatible with a variety of organic, inorganic, and biological molecules, and can be applied in many areas. The fluorescence carbon dots were prepared by one step microwave method using ascorbic acid as raw materials. The carbon dots were characterized by X-ray diffraction(XRD), transmission electron microscopy(TEM), ultraviolet-visible spectrophotometry, fluorescence spectrophotometry, and Fourier transform infrared spectrophotometry(FTIR). The results showed that the carbon dots have approximate spherical morphology, uniform size, good dispersion and non-agglomeration, good fluorescence properties. The carbon dots were rich in carboxyl and hydroxyl groups and had highly hydrophilic nature. The emission wavelength of carbon dots depended on the excitation wavelength. Furthermore, these carbon dots also had good fluorescence properties in a wide pH range.
王珊珊,米渭清,朱 红,王芳辉* . 一步微波法合成碳点及其荧光性质研究[J]. 光谱学与光谱分析, 2012, 32(10): 2710-2713.
WANG Shan-shan, MI Wei-qing, ZHU Hong, WANG Fang-hui*. Study on the Fluorescence Properties of Carbon Dots Prepared by One Step Microwave Method . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(10): 2710-2713.
[1] Dinesh Jagadeesan, Muthusamy Eswaramoothy. Chem. Asian J., 2010, 5(2): 232. [2] Lin F, He W N, Guo X Q, et al. Advanced Materials Research, 2012, (415-417): 1319. [3] Amit Jaiswal, Siddhartha Sankar Ghosh, Arun Chattopadhyay. Chemical Communications, 2012, 48(2): 407. [4] Li H T, He X D, Kang Z H, et al. Angewandte Chemie, 2010, 122(26): 4532. [5] Wang X, Cao L, Lu F S, et al. Chemical Communications, 2009(25): 3774. [6] Qiao Z A, Wang Y F, Gao Y, et al. Chemical Communications, 2010, 46(46): 8812. [7] Kwon Woosung, Rhee S W. Chemical Communications, 2012, 48(43): 5256. [8] Wang F, Xie Z, Zhang H, et al. Advanced Functional Materials, 2011, 21(6): 1027. [9] Baker S N. Baker G A. Angewandte Chemie International Edition, 2010, 49(38): 6726. [10] Xu X, Robert R, Gu Y L, et al. Journal of American Chemical Society, 2004, 126(40): 12736. [11] Sun Y P, Zhou B, Lin Y. Journal of American Chemical Society, 2006, 128(24): 7756. [12] Zhao Q L, Zhang Z L, Huang B H, et al. Chemical Communications, 2008,44: 5116. [13] Li H T, He X D, Kang Z H. Angewandte Chemie International Edition, 2010, 49(26): 4430. [14] Wang X H, Qu K G, Xu B L, et al. Journal of Materials Chemistry, 2011, 21(8): 2445. [15] Zhu H, Wang X L, Li Y L, et al. Chemical Communications, 2009, 45: 5118. [16] Sourov Chandra, Pradip Das, Sourav Bag, et al. Nanoscale, 2011, 3(4): 1533. [17] Li H T, He X D, Liu Y, et al. Carbon, 2011, 49(2): 605. [18] Wang Q L, Zheng H Z, Long Y J, et al. Carbon, 2011, 49(9):3134. [19] Peng H, Jadranka Travas-Sejdic. Chemistry Materials, 2009, 21(23): 5563. [20] Tian L, Debraj Ghosh, Chen W, et al. Chemistry Materials, 2009, 21(13): 2803. [21] Hsu P C, Chang H T. Chemical Communications, 2012, 48(33): 3984. [22] Zhang J C, Shen W Q, Pan D Y, et al. New Journal of Chemistry, 2010, 34(4): 591.
