| Title : Lipase-mediated epoxidation of alkenes in supercritical carbon dioxide - Zhang_2018_Green.Chem.Lett.Rev_11_508 |
| Author(s) : Zhang J , Qian W , Wang C , Cao Z , Chen S , Zhang L , Wang L |
| Ref : Green Chemistry Letters and Reviews , 11 :508 , 2018 |
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Abstract :
In this work, supercritical carbon dioxide was used as reaction media in the lipase-mediated epoxidation of alkenes for the first time. Under the optimal conditions (alkene (1 mmol), novozym 435 (15 mg), H2O2 (50% aqueous solution, 1.4 mmol), n-caprylic acid (0.05 mmol), 40C, scCO2 (10 MPa, 25 mL)), high yields (8398%) of epoxidation of alkenes could be obtained in a short reaction time. Furthermore, novozym 435 exhibited a satisfactory reusability in the epoxidations. Thus, this work not only presents a green and mild method of lipase-mediated epoxidation with higher yield and reaction rate than other lipase-mediated routes ever reported but also expands the application of supercritical carbon dioxide in enzyme catalytic promiscuity. |
| PubMedSearch : Zhang_2018_Green.Chem.Lett.Rev_11_508 |
| PubMedID: |
| Gene_locus related to this paper: canar-LipB |
| Inhibitor | Octanoate |
| Gene_locus | canar-LipB |
Zhang J, Qian W, Wang C, Cao Z, Chen S, Zhang L, Wang L (2018)
Lipase-mediated epoxidation of alkenes in supercritical carbon dioxide
Green Chemistry Letters and Reviews
11 :508
Zhang J, Qian W, Wang C, Cao Z, Chen S, Zhang L, Wang L (2018)
Green Chemistry Letters and Reviews
11 :508