Search Results - "Bitterwolf, Patrick"

Self‐Assembling All‐Enzyme Hydrogels for Flow Biocatalysis by Peschke, Theo, Bitterwolf, Patrick, Gallus, Sabrina, Hu, Yong, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S., Niemeyer, Christof M.

“…Continuous flow biocatalysis is an emerging field of industrial biotechnology that uses enzymes immobilized in flow channels for the production of value‐added…”
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Imine Reductase Based All-Enzyme Hydrogel with Intrinsic Cofactor Regeneration for Flow Biocatalysis by Bitterwolf, Patrick, Ott, Felix, Rabe, Kersten S, Niemeyer, Christof M

“…All-enzyme hydrogels are biocatalytic materials, with which various enzymes can be immobilized in microreactors in a simple, mild, and efficient manner to be…”
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A Phenolic Acid Decarboxylase-Based All-Enzyme Hydrogel for Flow Reactor Technology by Mittmann, Esther, Gallus, Sabrina, Bitterwolf, Patrick, Oelschlaeger, Claude, Willenbacher, Norbert, Niemeyer, Christof M, Rabe, Kersten S

“…Carrier-free enzyme immobilization techniques are an important development in the field of efficient and streamlined continuous synthetic processes using…”
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Self-Immobilizing Biocatalysts Maximize Space–Time Yields in Flow Reactors by Theo Peschke, Patrick Bitterwolf, Silla Hansen, Jannis Gasmi, Kersten S. Rabe, Christof M. Niemeyer

“…Maximizing space⁻time yields (STY) of biocatalytic flow processes is essential for the establishment of a circular biobased economy. We present a comparative…”
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Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors by Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M.

“…The industrial implementation of enzymes in flow biocatalysis microreactors is expected to be essential for the emergence of a bio‐based circular economy…”
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Valency engineering of monomeric enzymes for self-assembling biocatalytic hydrogels by Bitterwolf, Patrick, Gallus, Sabrina, Peschke, Theo, Mittmann, Esther, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S, Niemeyer, Christof M

“…All-enzyme hydrogels are efficient reagents for continuous flow biocatalysis. These materials can be obtained by self-assembly of two oligomeric enzymes,…”
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Intracellular Assembly of Interacting Enzymes Yields Highly‐Active Nanoparticles for Flow Biocatalysis by Bitterwolf, Patrick, Zoheir, Ahmed E., Hertel, Julian, Kröll, Sandra, Rabe, Kersten S., Niemeyer, Christof M.

“…All‐enzyme hydrogel (AEH) particles with a hydrodynamic diameter of up to 120 nm were produced intracellularly with an Escherichia coli‐based in vivo system…”
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Biocatalytic Foams from Microdroplet-Formulated Self-Assembling Enzymes by Hertel, Julian S, Bitterwolf, Patrick, Kröll, Sandra, Winterhalter, Astrid, Weber, Annika J, Grösche, Maximilian, Walkowsky, Laurenz B, Heißler, Stefan, Schwotzer, Matthias, Wöll, Christof, van de Kamp, Thomas, Zuber, Marcus, Baumbach, Tilo, Rabe, Kersten S, Niemeyer, Christof M

“…Industrial biocatalysis plays an important role in the development of a sustainable economy, as enzymes can be used to synthesize an enormous range of complex…”
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Cover Picture: Self‐Assembling All‐Enzyme Hydrogels for Flow Biocatalysis (Angew. Chem. Int. Ed. 52/2018) by Peschke, Theo, Bitterwolf, Patrick, Gallus, Sabrina, Hu, Yong, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S., Niemeyer, Christof M.

“…The next wave of biocatalysis will be enabled by machine‐assisted flow processes that require tailor‐made materials to achieve efficient product conversion. In…”
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Valency engineering of monomeric enzymes for self-assembling biocatalytic hydrogels† †Electronic supplementary information (ESI) available: Contains details about plasmid construction, protein expression, DLS measurements, hydrogel preparation, MPT measurements, microreactor preparation, synthesis of reduced methylketones, chiral HPLC analysis, determination of enzyme activities, microfluidic setups and product purification conducted during this study. See DOI: 10.1039/c9sc04074a by Bitterwolf, Patrick, Gallus, Sabrina, Peschke, Theo, Mittmann, Esther, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S., Niemeyer, Christof M.

“…All-enzyme hydrogels are efficient reagents for continuous flow biocatalysis. All-enzyme hydrogels are efficient reagents for continuous flow biocatalysis…”
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Titelbild: Self‐Assembling All‐Enzyme Hydrogels for Flow Biocatalysis (Angew. Chem. 52/2018) by Peschke, Theo, Bitterwolf, Patrick, Gallus, Sabrina, Hu, Yong, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S., Niemeyer, Christof M.

“…Die nächste Welle der Biokatalyse wird durch maschinengestützte Strömungsprozesse ermöglicht werden, die maßgeschneiderte Materialien benötigen, um eine…”
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Self‐Assembling All‐Enzyme Hydrogels for Flow Biocatalysis by Peschke, Theo, Bitterwolf, Patrick, Gallus, Sabrina, Hu, Yong, Oelschlaeger, Claude, Willenbacher, Norbert, Rabe, Kersten S., Niemeyer, Christof M.

“…Continuous flow biocatalysis is an emerging field of industrial biotechnology that uses enzymes immobilized in flow channels for the production of value‐added…”
Get full text