Self-adhesive PMIA membranes with virus-like silica immobilized lipase for efficient biological aging of Chinese liquor

Excellent separation and biocatalysis performance of novel CALB@virus-like silica/Poly (m-phthaloyl-m-phenylenediamine) (CALB@VLS/PMIA) membranes were fabricated by the self-adhesion method via introducing the immobilized biological enzyme (CALB@VLS) on the surface of PMIA membrane, in which the int...

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Published inJournal of membrane science Vol. 621; p. 118990
Main Authors Chen, Zhen, Xie, Huan-Yin, Chen, Gui-E, Xu, Sun-Jie, Xu, Zhen-Liang, Li, Yi-Jing, Mao, Hai-Fang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2021
Subjects
Chinese liquor
Esterification
Lipase immobilization
Poly (m-phthaloyl-m-phenylenediamine)
Virus-like silica
Chinese liquor
Poly (m-phthaloyl-m-phenylenediamine)
Virus-like silica
Esterification
Lipase immobilization
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Abstract Excellent separation and biocatalysis performance of novel CALB@virus-like silica/Poly (m-phthaloyl-m-phenylenediamine) (CALB@VLS/PMIA) membranes were fabricated by the self-adhesion method via introducing the immobilized biological enzyme (CALB@VLS) on the surface of PMIA membrane, in which the interconnection of CALB@VLS and PMIA was able to improve the ability of one-step refining Chinese liquor and catalytic synthesis of aromatic esters. The outcomes stated clearly that the increment of dosage of CALB@VLS and ratio of ethanol/water coagulation bath led a raise of the lipase loading on the surfaces of membrane yet overdose caused an abatement in the lipase activity. With the optimal conditions of 0.5 g L−1 dosage and 60 %v/v ratio, the CALB@VLS decorated PMIA membrane achieved the supreme lipase relative activity at 95.3% of its initial activity. Meanwhile, the rejection rate of turbid advanced fatty acid ethyl esters attached the highest 92.5% under satisfactory liquor flux (432.5 L m−2 h−1). The pH, thermal, organic solvent and storage stability of the lipase immobilized on the membrane were markedly enhanced. The effect of CALB@VLS dosage, liquor concentration and operating temperature on the efficiency of catalytic esterification was explored. Additionally, the immobilized lipase on the membrane could be readily maintained at 75.7% after repeated use ten times. Consequently, the PMIA membrane promised to be an excellent carrier for lipase, and the bioactive membrane could have broad applications in food, medicine, etc. [Display omitted] •PMIA membranes were self-adhesive with virus-like silica immobilized lipase.•Immobilized lipase on PMIA membranes achieved high lipase loading and activity.•The pH, thermal and organic solvent stability of bioactive membrane were improved.•The CALB@VLS/PM possessed the ability of one-step refining and biocatalysis.
AbstractList Excellent separation and biocatalysis performance of novel CALB@virus-like silica/Poly (m-phthaloyl-m-phenylenediamine) (CALB@VLS/PMIA) membranes were fabricated by the self-adhesion method via introducing the immobilized biological enzyme (CALB@VLS) on the surface of PMIA membrane, in which the interconnection of CALB@VLS and PMIA was able to improve the ability of one-step refining Chinese liquor and catalytic synthesis of aromatic esters. The outcomes stated clearly that the increment of dosage of CALB@VLS and ratio of ethanol/water coagulation bath led a raise of the lipase loading on the surfaces of membrane yet overdose caused an abatement in the lipase activity. With the optimal conditions of 0.5 g L−1 dosage and 60 %v/v ratio, the CALB@VLS decorated PMIA membrane achieved the supreme lipase relative activity at 95.3% of its initial activity. Meanwhile, the rejection rate of turbid advanced fatty acid ethyl esters attached the highest 92.5% under satisfactory liquor flux (432.5 L m−2 h−1). The pH, thermal, organic solvent and storage stability of the lipase immobilized on the membrane were markedly enhanced. The effect of CALB@VLS dosage, liquor concentration and operating temperature on the efficiency of catalytic esterification was explored. Additionally, the immobilized lipase on the membrane could be readily maintained at 75.7% after repeated use ten times. Consequently, the PMIA membrane promised to be an excellent carrier for lipase, and the bioactive membrane could have broad applications in food, medicine, etc. [Display omitted] •PMIA membranes were self-adhesive with virus-like silica immobilized lipase.•Immobilized lipase on PMIA membranes achieved high lipase loading and activity.•The pH, thermal and organic solvent stability of bioactive membrane were improved.•The CALB@VLS/PM possessed the ability of one-step refining and biocatalysis.
ArticleNumber 118990
Author Xu, Sun-Jie
Xu, Zhen-Liang
Chen, Zhen
Xie, Huan-Yin
Li, Yi-Jing
Mao, Hai-Fang
Chen, Gui-E
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  email: chemxuzl@ecust.edu.cn
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  surname: Mao
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Keywords Chinese liquor
Poly (m-phthaloyl-m-phenylenediamine)
Virus-like silica
Esterification
Lipase immobilization
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Snippet Excellent separation and biocatalysis performance of novel CALB@virus-like silica/Poly (m-phthaloyl-m-phenylenediamine) (CALB@VLS/PMIA) membranes were...
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StartPage 118990
SubjectTerms Chinese liquor
Esterification
Lipase immobilization
Poly (m-phthaloyl-m-phenylenediamine)
Virus-like silica
Title Self-adhesive PMIA membranes with virus-like silica immobilized lipase for efficient biological aging of Chinese liquor
URI https://dx.doi.org/10.1016/j.memsci.2020.118990
Volume 621
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