超分散剂在莠去津颗粒表面吸附的红外和拉曼光谱学研究

doi:10.3964/j.issn.1000-0593(2011)03-0640-04

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摘要：聚羧酸型梳状共聚物超分散剂在农药环保剂型悬浮剂的研究中起着重要的作用，可使其理化稳定性得到明显改善，因此研究聚羧酸型梳状共聚物超分散剂在莠去津颗粒表面的吸附行为具有重要的理论和实际意义。利用傅里叶红外光谱 (FTIR)和傅里叶拉曼光谱(FT-Raman)对超分散剂在莠去津表面的吸附行为进行了光谱学表征，结果表明，氢键是超分散剂分子与莠去津表面结合的主要作用力，是分散剂分子在莠去津表面吸附的重要推动力。但分散剂分子在莠去津表面究竟吸附多少和吸附厚度多大才能使悬浮体系得到稳定，还需进一步采用光谱学表征手段进行定量分析加以确认。本文研究结果为开发稳定的莠去津悬浮剂和光谱学定量分析奠定理论基础，为莠去津悬浮剂的应用提供了重要的信息。

关键词：傅里叶红外光谱;傅里叶拉曼光谱;莠去津;超分散剂

Abstract：The main methods in performing the study of the adsorption properties of hyperdispersant on atrazine surface were fourier transform infrared spectroscopy (FTIR) and FT-Raman spectrometer (FT-Raman), and the results suggested that the hydrogen bond force was the main force combining the surface of atrazine particles and the dispersant. And it also promoted the adsorption of dispersant on atrazine particles. However, the information of what accurate quantity of the dispersant adsorbed on the surface of atrazine should a successful suspension ability of the suspension concentrate acquire is still not available. And researches on this question still need to be done with the help of quantized spectroscopy method. The result of this study provided a theoretical foundation for the development of stable atrazine suspension concentrate and the spectroscopy quantitative analysis of it. This result provided significant information for the application of atrazine suspension concentrate at the same time.

Key words：Fourier transform infrared spectroscopy;FT-Raman spectrometer;Atrazine;Hyperdispersant

收稿日期: 2010-09-08 修订日期: 2010-12-06

中图分类号:

O647.3

通讯作者: 吴学民 E-mail: wuxuemin@cau.edu.cn

引用本文:

徐妍，马超，贾然，蔡梦玲，胡奕俊，吴学民^* . 超分散剂在莠去津颗粒表面吸附的红外和拉曼光谱学研究[J]. 光谱学与光谱分析, 2011, 31(03): 640-643.
XU Yan, MA Chao, JIA Ran, CAI Meng-ling, HU Yi-jun, WU Xue-min^* . Fourier Transform Infrared Spectroscopy and FT-Raman Spectrometer Study of Hyperdispersant on Atrazine Surface . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(03): 640-643.

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https://www.gpxygpfx.com/CN/10.3964/j.issn.1000-0593(2011)03-0640-04 或 https://www.gpxygpfx.com/CN/Y2011/V31/I03/640

[1] Tomlin C D S. The Pesticide Manual. 12th ed. The British Crop Protection Countil, 2000. 42.
[2] Institute for Control of Agrichemicals, Ministry of Agriculture, People′s Republic of China(中国农业部农药检定所). Pesticide Management Information Compendium(农药管理信息汇编). Beijing: China Agricultural Press(北京: 中国农业出版社), 2009.
[3] XU Yan, MA Chao, LIU Shi-lu, et al(徐妍, 马超, 刘世禄, 等). Modern Agrochemicals(现代农药), 2010, 9(2): 18.
[4] Butt H J, Berger R, Bonaccurso E, et al. Advances in Colloid and Interface Science, 2007, 133(2): 91.
[5] Yoshioka K, Sakai E, Daimon M, et al. J. Am. Cerma. Soc. , 1997, 80(10): 2667.
[6] Tadros Th F. Suspension Concentrates, United Nations Industrial Development Organization Vienna, 1998. 169.
[7] WANG Jing, GUO Chen, LIU Hui-zhou(王靖, 郭晨, 刘会洲). Chinese Joumal of Analytical Chemistry(分析化学), 2001, 29(1): 35.
[8] GAO Shu-yan, WANG Dong-mei，ZHANG Hong-jie(高书燕, 汪冬梅, 张洪杰). Chinese Joumal of Analytical Chemistry(分析化学), 2007, 35(9): 1314.
[9] GUO Peng-ran, JIA Xiao-yu, MU De-hai, et al(郭鹏然, 贾晓宇, 牟德海, 等). Chem. J. Chinese Universities(高等学校化学学报), 2010, 31(8): 1510.
[10] Baran Jan A, Drozd Marek A, Ratajczak Henryk. Journal of Molecular Structure, 2010, 976: 226.
[11] Durig James R, Ward Rachel M, Conrad Andrew R, et al. Journal of Molecular Structure, 2010, 975: 5.
[12] Seah M P, Dench W A. Surface and Interface Analysis, 1979, 1(1): 2.
[13] XUE Qi(薛奇). Spectra Analysis on Macromolecule Structure(高分子结构研究中的光谱方法). Beijing: Higher Education Press(北京: 高等教育出版社), 1995. 170.
[14] LIUFU Sheng-cong, XIAO Han-ning, LI Yu-ping(刘付胜聪, 肖汉宁, 李玉平). Chem. J. Chinese Universities(高等学校化学学报), 2005, 26(4): 742.
[15] HUANG Hui, GUO Zhong-cheng(黄惠, 郭忠诚). Acta Polymerica Sinica(高分子学报), 2010, 26 (10): 1180.