Physicochemical properties and operational stability of Taguchi design-optimized Candida rugosa lipase supported on biogenic silica/magnetite/graphene oxide for ethyl valerate synthesis
Biobased ternary nanocomposites can stabilize enzymes for greater stability, catalytic activity and easy recovery. This study aimed to optimize biogenic silica/magnetite/graphene oxide nanocomposite supported Candida rugosa lipase (CRL/SiO2/Fe3O4/GO) for ethyl valerate (EV) synthesis and characteriz...
| Main Authors: | Jacob, A.G., Wahab, R.A., Chandren, S., Jumbri, K., Wan Mahmood, W.M.A. |
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| Format: | Article |
| Institution: | Universiti Teknologi Petronas |
| Record Id / ISBN-0: | utp-eprints.28917 / |
| Published: |
Elsevier B.V.
2022
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| Online Access: |
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85120705367&doi=10.1016%2fj.apt.2021.11.026&partnerID=40&md5=b4e84497f36c33343a7ffff74b381864 http://eprints.utp.edu.my/28917/ |
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| Summary: |
Biobased ternary nanocomposites can stabilize enzymes for greater stability, catalytic activity and easy recovery. This study aimed to optimize biogenic silica/magnetite/graphene oxide nanocomposite supported Candida rugosa lipase (CRL/SiO2/Fe3O4/GO) for ethyl valerate (EV) synthesis and characterize the biocatalysts� physicochemical properties and operational stability. CRL conjugated-oil palm leaves-derived biogenic SiO2/Fe3O4/GO nanocomposite showed a maximum immobilized protein of 44.13 ± 2.1 mg/g with a specific activity (534.87 ± 9.5 U/mg), than free CRL (�700 U/mg). GL-A-SiO2/Fe3O4/GO exhibited the highest surface area (260.87 m2/g) alongside superior thermal stability in TGA/DTG. XRD revealed an amorphous SiO2 (crystallinity = 26.7), while Fe3O4 existed as cubic spinel crystal (crystallinity = 90.2). Taguchi Design-optimization found that CRL/SiO2/Fe3O4/GO best catalyzed the EV synthesis (90.4 in 3 h) at 40 � using 3 mg/mL of biocatalyst, valeric acid/ethanol molar ratio of 1:2, in 10 (m/v) molecular sieves with stirring in heptane at 200 rpm. EV production was confirmed by FTIR- (C=O: 1738 cm�1 and C�O�C: 1174 cm�1) and GC�MS (M+ m/z = 130, C7H14O2). CRL/SiO2/Fe3O4/GO's reusability for 11 successive esterification cycles demonstrated the SiO2/Fe3O4/GO's exceptional hyperactivation and stabilization properties on immobilized CRL. These findings conveyed the SiO2/Fe3O4/GO's efficacy to alter CRL's physicochemical properties and operational stability for catalyzing higher yields EV. © 2021 The Society of Powder Technology Japan |
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