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LiCl-induced improvement of multilayer nanofibrous lipase for biodiesel synthesis |
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| Authors: | Liu Chun-Xia Zhang Song-Ping Su Zhi-Guo Wang Ping |
| Affiliation: | a National Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China b Graduate University of Chinese Academy of Sciences, Beijing 100049, China c Biotechnology Institute and Department of Bioproducts and Biosystems Engineering, University of Minnesota, St. Paul, MN 55108, USA |
| Abstract: | A unique method that applied a multilayer-immobilization strategy was developed to prepare nanofibrous enzymes for biosynthesis. LiCl co-electrospun with polyurethane nanofibers enabled strong physical adsorption of bovine serum albumin (BSA), forming the first layer of protein on the nanofibers; lipase AK was subsequently crosslinked to BSA as an outer layer of enzyme. The content of LiCl in nanofibers was found to be a sensitive factor affecting the activity and stability of the immobilized lipase. For biodiesel synthesis from soybean oil and methanol in isooctane, the reaction rate catalyzed by nanofibrious lipase carrying 5 wt% LiCl was 6.6-fold higher than fibers without LiCl, with a conversion of 91% was achieved within 2 h. LiCl also induced much improved enzyme stability. The nanofibrous lipase with 5% LiCl could be repeatedly used for 42 cycles without apparent activity loss, while the immobilized lipase without LiCl lost over 90% activity within 13 reuse cycles. |
| Keywords: | Biodiesel Lipase AK Polyurethane nanofibers LiCl Stability |
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