2 article(s) from Noël, Timothy
Enzymatic reaction schemes for the selective oxidation of trans-hex-2-enol. A: Alcohol dehydrogenas...
Jump to Scheme 1
Michaelis–Menten kinetics of the PeAAOx-catalysed oxidation of trans-hex-2-enol. Conditions: 50 mM ...
Jump to Figure 1
The influence of the residence time on the conversion of trans-hex-2-enol (red squares) to trans-2-...
Jump to Figure 2
Increasing the PeAAOx turnover numbers (TN) by increasing the residence time. Conditions: 6 mL flow...
Jump to Figure 3
Beilstein J. Org. Chem. 2018, 14, 697–703, doi:10.3762/bjoc.14.58
Activity loss of TA immobilized by two different methods and as a free enzyme at 80 °C. Reproduced ...
Degree of immobilization versus incubation time.
Batch reaction using free enzyme. Reaction conditions: Reaction volume (10 mL), TA (2.7 mg, specifi...
Product inhibition study.
Jump to Figure 4
Effect of temperature on product yield. Reaction conditions: Reaction volume (0.250 mL), TA (1.1 mg...
Jump to Figure 5
Effect of flow rates on yield for immobilized enzymes in a packed bed microreactor (70 °C). Reactio...
Jump to Figure 6
Effect of residence time on yield for free enzymes in a Teflon tube microreactor at 70 °C. Reaction...
Jump to Figure 7
Long term enzyme stability at 70 °C. Reaction conditions: Reaction volume (0.250 mL), TA (1.1 mg, s...
Jump to Figure 8
Synthesis of chiral α-aminoalcohol by telescoping aldolase reaction with decarboxylation.
Jump to Scheme 2
Jump to Figure 9
Jump to Figure 10
Flow reaction set-up using free enzyme.
Jump to Figure 11
Experimental setup for packed be microreactor.
Jump to Figure 12
Analysis of the four isomers of phenylserine on a chiral column.
Jump to Figure 13
Beilstein J. Org. Chem. 2013, 9, 2168–2179, doi:10.3762/bjoc.9.254
Subscribe to our Latest Articles RSS Feed.
Register and get informed about new articles.
Follow the Beilstein-Institut