李娜,孟祥锐,彭传博,于方睿,张健,盛雪茹,平清伟.可提高漆酶酶活的载锰活性炭-纤维素复合吸附剂的制备及应用[J].中国造纸学报,2024,(3):38-44 本文二维码信息
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可提高漆酶酶活的载锰活性炭-纤维素复合吸附剂的制备及应用
Preparation and Application of Manganese-loaded Activated Carbon-Cellulose Composite Adsorbent for Enhancing Laccase Enzyme Activity
投稿时间:2023-08-08  修订日期:2023-10-25
DOI:10.11981/j.issn.1000-6842.2024.03.38
中文关键词:  废弃载锰活性炭  纤维素基吸附剂  固定化漆酶  双酚A降解
Key Words:waste manganese-loaded activated carbon  cellulose-based adsorbent  immobilized laccase  bisphenol A degradation
基金项目:辽宁省教育厅面上项目(LJKMZ20220885);生物基材料与绿色造纸国家重点实验室开放基金项目(GZKF202225);天津市制浆造纸重点实验室开放基金项目(202106)。
作者单位邮编
李娜 大连工业大学轻工与化学工程学院辽宁大连116034 116034
孟祥锐 大连工业大学轻工与化学工程学院辽宁大连116034 116034
彭传博 大连工业大学轻工与化学工程学院辽宁大连116034 116034
于方睿 大连工业大学轻工与化学工程学院辽宁大连116034 116034
张健 大连工业大学轻工与化学工程学院辽宁大连116034 116034
盛雪茹 大连工业大学轻工与化学工程学院辽宁大连116034 116034
平清伟 大连工业大学轻工与化学工程学院辽宁大连116034 116034
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中文摘要:
      利用废弃的载锰活性炭与纤维素,通过溶剂再生法制备了一种可用于固定化漆酶、提高固定化漆酶酶活的载锰活性炭-纤维素复合吸附剂,并用其固定化漆酶制备漆酶-载体材料。研究结果表明,Mn2+含量对漆酶-载体材料酶活有一定的影响,复合吸附剂中Mn2+含量为1.5 mg/g时,漆酶-载体材料酶活最高;漆酶固定化的最佳工艺条件为固定化温度45 ℃、pH值=4,初始酶浓度6.5 g/L;在最佳固定化反应条件下,漆酶-载体材料的漆酶固定化率最高达48.24%;漆酶-载体材料的热稳定性和pH稳定性均得到明显增强;利用漆酶-载体材料降解双酚A,降解率达68%,重复使用5次后的双酚A相对降解率仍可达51%。
Abstract:
      A novel manganese-loaded activated carbon-cellulose composite adsorbent that could immobilize laccase and increase the enzyme activity was prepared by solvent regeneration method, using waste manganese-loaded activated carbon and cellulose, and further prepared the laccase-carrier material after immobilizing laccase. The results showed that the content of Mn2+ had a certain effect on the enzyme activity of the laccase-carrier material, and the enzyme activity of the laccase-carrier material was the highest when the content of Mn2+ in the composite adsorbent was 1.5 mg/g. The optimum process conditions for the immobilization of laccase were the immobilization temperature of 45 ℃, the pH value of 4, and the initial enzyme concentration of 6.5 g/L. The immobilization ratio of the laccase-carrier material was the highest to 48.24% under the optimum conditions of immobilization; the thermal and pH stabilities of the laccase-carrier material were significantly enhanced; the degradation rate of bisphenol A using the laccase-carrier material reached 68%, and the relative degradation rate of bisphenol A was still up to 51% after 5 times of reuse.
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