One-pot method of recyclable lipase-nanocatalyst based on chitosan magnetic nanomaterial for ethyl levulinate synthesis
文献类型: 外文期刊
第一作者: Tang, Ge
作者: Tang, Ge;Deng, Kuaqian;Li, Panyang;Huang, Jiali;Dao, Fanglin;Jiang, Jianfang;Jiang, Hao;Wang, Jing
作者机构:
关键词: Magnetic nanoparticles; Chitosan; Lipase-nanocatalyst; One-pot method; Ethyl levulinate
期刊名称:COMPOSITES SCIENCE AND TECHNOLOGY ( 影响因子:9.1; 五年影响因子:8.5 )
ISSN: 0266-3538
年卷期: 2023 年 236 卷
页码:
收录情况: SCI
摘要: Carrier, immobilization method and conditions are the most important factors affecting the performance of immobilized lipase. In this study, MNP@CTS is successfully prepared via an improved hydrothermal method combined with ion condensation. Then, we creatively adopt one-pot method, combining electrostatic adsorption with chemical crosslinking, to prepare lipase-nanocatalyst with excellent performance under mild conditions. MNP@CTS and lipase-nanocatalyst are characterized by FTIR, SEM, HRTEM, CLSM, CD, etc, the optimal conditions are explored in detail too. Lipase-nanocatalyst is 189 nm, and the loading ratio of free lipase is up to 67.6%. Compared with free lipase, specific activity is increased by 2.9 times, and it also broadens toleration to pH, thermal, organic solvents. In addition, lipase-nanocatalyst exhibits high storage stability and reusability. The residual activity is approximately 92.3% after the 10th recycle, and the cumulative catalytic activity is 13.4 times than that of free lipase. Finally, lipase-nanocatalyst is used to synthesize ethyl levulinate, with a production ratio of 68.6% for the first recycle, and the total output of EL is 12.9 times than that of free lipase after ten cycles. Thus, our findings provide a foundation for lipase-nanocatalyst showing several attractive features, such as easy preparation, excellent catalytic activity, good stability and reusability.
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