Infrared Spectroscopic Analysis of the Production Process of Larch Bark Proanthocyanidins
JIANG Ze-ming1, ZHOU Tian-tian1, BU Hong-yang1, ZHANG Li-ping1*, SUN Su-qin2, MA Fang2
1. Beijing Key Laboratory of Lignocellulosic Chemistry, Beijing Forestry University, Beijing 100083, China
2. Key Laboratory of Bioorganic Phosophorus Chemistry and Chemistry Biology (Ministry of Education), Department of Chemistry, Tsinghua University, Beijing 100084, China
Abstract:In order to evaluate existing producing process of larixgmelinii bark proanthocyanidins, understand the changes of the component content in each step, we used Tri-level infrared spectroscopic to identify, which employed the Fourier transform infrared spectroscopy(FTIR), the second derivative infrared spectroscopy(SD-IR) and two-dimensional correlation infrared spectroscopy. The results indicated that the FTIR spectrograms of the product of each process in shape was very similar. We found that some substances characteristic peak disappeared or offseted, reflecting the changes of component content of samples. With the improvement of production process, the purity and structure of samples have been more and more near to the standard sample, but still contained some other substance. The second derivative infrared spectroscopy not only tested and verified the analysis results of FTIR, but also improved the resolution ratio which was helpful to show differences that were not manifested in FTIR. Within the scope of the 830 to 1 310 cm-1,2D-IR has more significant differences in positions, strength and numbers of automatically peaks. Therefore, we could conclude from the Tri-level infrared spectroscopic identification that the purity in proanthocyanidins is higher and higher with the improvement of production process. And the structures of samples we get finally are similar to that of standard sample, but still contains a small number of impurities
姜泽明,周甜甜,卜洪洋,张力平,孙素琴,马 芳. 落叶松树皮原花青素生产过程的红外光谱分析[J]. 光谱学与光谱分析, 2018, 38(01): 62-67.
JIANG Ze-ming, ZHOU Tian-tian, BU Hong-yang, ZHANG Li-ping, SUN Su-qin, MA Fang. Infrared Spectroscopic Analysis of the Production Process of Larch Bark Proanthocyanidins. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(01): 62-67.
[1] JIANG Gui-quan,FANG Gui-zhen(姜贵全,方桂珍). Science and Technology of Food Industry(食品工业科技),2013, 18: 257.
[2] WANG Zhe,LI Zhong-zheng(王 哲,李忠正). Chemistry and Industry of Forest Products(林产化学与工业),2006, 03: 59.
[3] CHEN Ling-zhi,CHEN Qing-lang, LIU Wen-hua(陈灵芝,陈清朗,刘文化). Forest Diversity and Its Geographycial Distribution in China(中国森林的多样性及其地理分布). Beijing:Science Press(北京: 科学院出版社),1997.
[4] Wu W,Sun S Q,Zhou Q,et al. Journal of Pharmaceutical and Biomedical Analysis,2008, 46: 498.
[5] XU Rong,SUN Su-qin,LIU You-gang(徐 荣,孙素琴,刘友刚). Chinese Journal of Analytical Chemistry(分析化学),2009, 37(2): 221.
[6] Zhou Q,Sun S Q,Yu L,et al. Journal of Molecular Structure,2006, 799: 77.
[7] Xu C H,Sun S Q,Guo C Q ,et al. Vibrational Spectrosocopy,2006, 41: 118.
[8] Noda I. J. Am. Chem. Soc.,1989, 111(21): 8116.
[9] Noda I. Appl. Spectrosc.,1990, 44(4): 550.
[10] Noda I. Appl. Spectrosc.,1993, 47: 1329.
[11] ZHANG Ming,ZHANG Xiang,LUO Shu-qin(张 明,张 相,罗书勤). Fine and Specialty Chemicals(精细与专用化学品),2014, 12(22): 5.
[12] LUO Shu-qin,ZHANG Xiang,ZHANG Ming(罗书勤,张 相,张 明). Journal of Beijing Forestry University(北京林业大学学报),2014, 36(5): 142.
[13] Foo L Y, Porter L J. Phytochemistry,1980,19(8):1747.
