Hydrogen sources, biocatalytic

Formate is one of the most representative hydrogen sources for the biocatalytic reduction because CO2 formed by the oxidation of formate is released easily from the reaction system [4]. For example, for the reduction of aromatic ketones by the... 

As with another class of compounds, the scale of synthesis and time required at the research stage before product can be made influence which method is finally used. At small scale, a plethora of methods exist to prepare amino acids, in addition to isolation of the common ones from natural sources. The majority of these small-scale reactions rely on the use of a chiral auxiliary or template. At larger scale, asymmetric hydrogenation and biocatalytic processes come into their own. For the amino acids approaching commodity chemical scales, biological approaches, either as biocatalytic or total fermentation, provide the most cost-efficient processes. 

The design of biocatalytic electrodes for activity toward gaseous substrates, such as dioxygen or hydrogen, requires special consideration. An optimal electrode must balance transport in three different phases, namely, the gaseous phase (the source of substrate), the aqueous phase (where the product water is released and ionic transport takes place), and the solid phase (where electronic transport occurs). Whereas the selectivity of biocatalysts facilitates membraneless cells for implementation in biological systems that provide an ambient electrolyte, gas-diffusion biofuel cells require an electro-... 

Biocatalytic asymmetric oxidation of 2,3-dihydrobenzo[. ]thiophene to (—)-(lJ)-sulfoxide in excellent yield has been reported. The enzyme used is a chloroperoxidase from the marine fungus Caldariomycesfumago. This enzyme is relatively stable and does not require any cofactor. Hydrogen peroxide was the oxygen source. Using this system, 2,3-dihydro-benzo[. ]thiophene was converted to the (—)-(i )-sulfoxide in 99.5% yield, with an ee of 99%. Similarly, 1,3-dihydro-benzo[f]thiophene could be oxidized to the corresponding sulfoxide in 80% yield <1998CH246>. 

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