微波辐射对不同介质均相壳聚糖的降解研究

食品科学 ›› 2005, Vol. 26 ›› Issue (10): 30-34.

微波辐射对不同介质均相壳聚糖的降解研究

刘松, 邢荣娥, 于华华, 郭占勇, 李鹏程

中国科学院海洋研究所，中国科学院研究生院

出版日期:2005-10-15 发布日期:2011-09-25

Studies on Degradation of Homogeneous Chitosan in Different Medium by Microwave Irradiation

LIU Song, XING Rong-E, YU Hua-Hua, GUO Zhan-Yong, LI Peng-Cheng

1.Institute of Oceanology, Chinese Academy of Sciences; 2. Graduate School, Chinese Academy of Sciences

Online:2005-10-15 Published:2011-09-25

摘要/Abstract

摘要： 在不同酸性介质中,采用微波辐射对壳聚糖进行均相降解反应,制备出不同分子量的壳聚糖。探讨反应介质、过氧化氢与壳聚糖配比、微波辐射功率和辐射时间对降解反应的影响。结果表明:选择不同的反应条件,微波辐射1～6min就可制备出相对分子量在1～10万之间不同分子量大小的壳聚糖,且反应产率高、重复性好。固定其他反应条件不变,在CH3COOH介质中,壳聚糖的降解速度最快,适合制备分子量为1～5万的水不溶性壳聚糖,产率在80%以上;在HCOOH介质中,降解速度最慢,适合制备分子量在5万以上的壳聚糖,产率在90%以上;在HCl介质中的降解速度则介于二者之间。

关键词: 均相壳聚糖, 微波辐射, 降解

Abstract: Chitosans with low molecular weight were prepared by homogeneous degradation of chitosan by microwave irradiation in different acid solution. The effects of various factors such as: reaction solution, H2O2/Chitosan ratio, microwave irradiation power and time on the degradation reaction were investigated in this paper. The results showed that chitosans with 10～100 thousand molecular weight were prepared in 1～6 minutes by microwave irradiation under the different reaction conditions. Moreover, the yield was higher and repetition was well. Keeping other reaction conditions fixed, the degradation velocity of chitosan in CH3COOH solution was the quickest and it was fit for preparing water-unsolvable chitosan with 10～ 50 thousand molecular weight while, the yield was over 80%. The degradation velocity in HCOOH solution was slowest and it was fit for preparing chitosan with more than 50 thousand molecular weight, while the yield was over 90%. The degradation velocity in HCl solution was in-between the other two.

Key words: homogeneous chitosan, microwave irradiation, degradation

刘松, 邢荣娥, 于华华, 郭占勇, 李鹏程. 微波辐射对不同介质均相壳聚糖的降解研究[J]. 食品科学, 2005, 26(10): 30-34.

LIU Song, XING Rong-E, YU Hua-Hua, GUO Zhan-Yong, LI Peng-Cheng. Studies on Degradation of Homogeneous Chitosan in Different Medium by Microwave Irradiation[J]. FOOD SCIENCE, 2005, 26(10): 30-34.

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