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金属与糖化酶共催化糊精水解加氢制山梨醇的研究
引用本文:李辉, 董福兴, 徐亮. 金属与糖化酶共催化糊精水解加氢制山梨醇的研究[J]. 上海师范大学学报(自然科学版), 2011, 40(4): 336-339,441
作者姓名:李辉   董福兴   徐亮
作者单位:上海师范大学生命与环境科学学院,上海,200234
基金项目:国家自然科学基金项目(20973113); 上海市教委项目(10SG41)
摘    要:通过考察糖化酶对糊精水解的影响因素,确定了合适的糖化酶水解条件.通过对金属催化剂筛选,寻找出催化性能较好的Ru-P非晶态合金为加氢催化剂.采用超声辅助化学还原法制备了负载型Ru-P非晶态合金催化剂,与糖化酶相结合,用于糊精水解加氢一步法制备山梨醇,得到较高的山梨醇收率.

关 键 词:糊精  山梨醇  糖化酶  Ru-P非晶态合金催化剂  氢化

Study on the Hydrolysis-Hydrogenation of Dextrin to Sorbitol Co-Catalyzed by Metal and Saccharifying Enzyme
LI Hui,DONG Fu-xing,XU Liang. Study on the Hydrolysis-Hydrogenation of Dextrin to Sorbitol Co-Catalyzed by Metal and Saccharifying Enzyme[J]. Journal of Shanghai Normal University(Natural Sciences), 2011, 40(4): 336-339,441
Authors:LI Hui  DONG Fu-xing  XU Liang
Affiliation:LI Hui,DONG Fu-xing,XU Liang(College of Life and Environment Sciences,Shanghai Normal University,Shanghai 200234,China)
Abstract:The optimal reaction conditions for the hydrolysis of dextrin by saccharifying enzyme were determined via investigating several effect factors.Meanwhile,Ru-P amorphous alloy was selected as hydrogenation catalyst.A supported Ru-P amorphous alloy catalyst was prepared through ultrasound-assisted chemical reduction method.The as-prepared catalyst was combined with saccharifying enzyme,and employed in the one-pot hydrolysis-hydrogenation of dextrin to sorbitol.A relatively high sorbitol yield was achieved.
Keywords:dextrin  sorbitol  saccharifying enzyme  Ru-P amorphous alloy catalyst  hydrogenation  
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