Peroxyzymes simply use H2O2 as a cosubstrate to oxidize a broad range of inert C-H bonds. The lability of many peroxyzymes against H2O2 can be addressed by a controlled supply of H2O2, ideally in situ. Here, we report a simple, robust, and water-soluble anthraquinone sulfonate (SAS) as a promising organophotocatalyst to drive both haloperoxidase-catalyzed halogenation and peroxygenase-catalyzed oxyfunctionalization reactions. Simple alcohols, methanol in particular, can be used both as a cosolvent and an electron donor for H2O2 generation. Very promising turnover numbers for the biocatalysts of up to 318 »000 have been achieved. </p
Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, t...
Unspecific peroxygenases have attracted interest in synthetic chemistry, especially for the oxidativ...
Peroxygenases require a controlled supply of H2O2 to operate efficiently. Here, we propose a photoca...
Peroxyzymes simply use H2O2 as a cosubstrate to oxidize a broad range of inert C-H bonds. The labili...
The aerobic organocatalytic oxidation of alcohols was achieved by using water-soluble sodium anthraq...
Selective oxyfunctionalizations of inert C−H bonds can be achieved under mild conditions by using pe...
Peroxygenases require a controlled supply of H2O2 to operate efficiently. Here, we propose a photoca...
We describe the exploitation of the selective catalytic property of anthraquinone (AQ) for solar pho...
In vitro cofactor supply and regeneration have been a major obstacle for biocatalytic processes, in ...
Continuous low-level supply or in situ generation of hydrogen peroxide (H2O2) is essential for the s...
Peroxygenases offer an attractive means to address challenges in selective oxyfunctionalization chem...
AbstractSpin-trapping experiments have shown that 9, 10-anthraquinone-2-sulphonate (AQS) can be redu...
In general, hydrogen peroxide is a stable and relatively mild oxidant and it can be regarded as the ...
The estimated excited oxidation potential of sodium anthraquinone-2-sulfonate (SAS) increases from 1...
Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, t...
Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, t...
Unspecific peroxygenases have attracted interest in synthetic chemistry, especially for the oxidativ...
Peroxygenases require a controlled supply of H2O2 to operate efficiently. Here, we propose a photoca...
Peroxyzymes simply use H2O2 as a cosubstrate to oxidize a broad range of inert C-H bonds. The labili...
The aerobic organocatalytic oxidation of alcohols was achieved by using water-soluble sodium anthraq...
Selective oxyfunctionalizations of inert C−H bonds can be achieved under mild conditions by using pe...
Peroxygenases require a controlled supply of H2O2 to operate efficiently. Here, we propose a photoca...
We describe the exploitation of the selective catalytic property of anthraquinone (AQ) for solar pho...
In vitro cofactor supply and regeneration have been a major obstacle for biocatalytic processes, in ...
Continuous low-level supply or in situ generation of hydrogen peroxide (H2O2) is essential for the s...
Peroxygenases offer an attractive means to address challenges in selective oxyfunctionalization chem...
AbstractSpin-trapping experiments have shown that 9, 10-anthraquinone-2-sulphonate (AQS) can be redu...
In general, hydrogen peroxide is a stable and relatively mild oxidant and it can be regarded as the ...
The estimated excited oxidation potential of sodium anthraquinone-2-sulfonate (SAS) increases from 1...
Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, t...
Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, t...
Unspecific peroxygenases have attracted interest in synthetic chemistry, especially for the oxidativ...
Peroxygenases require a controlled supply of H2O2 to operate efficiently. Here, we propose a photoca...