Author: Maximilian M. Hielscher

Optimization Strategies for the Anodic Phenol‐Arene Cross‐Coupling Reaction

2021

chemistry.chemical_compoundElectrolysisMaterials sciencechemistrylawInorganic chemistryElectrochemistryPhenolCatalysisCoupling reactionAnodelaw.inventionChemElectroChem

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Investigations on isomerization and rearrangement of polycyclic arenes under oxidative conditions – Anodic versus reagent-mediated reactions

2019

Abstract Electro-organic conversions at an active molybdenum anode enable the formation of fused arenes. High chemoselectivity was achieved under anodic conditions, and a reagent-induced selectivity was observed by comparison with results of MoCl5-mediated reactions. Polycyclic arenes like phenanthrenes, triphenylenes, chrysenes, or helicenes were selectively obtained in yields up to 87% and in some cases unusual rearrangements were crucial for the product formation.

General Chemical Engineeringchemistry.chemical_elementOxidative couplingRearrangement02 engineering and technologyOxidative phosphorylation010402 general chemistry021001 nanoscience & nanotechnologyPhotochemistry01 natural sciencesElectrolysis0104 chemical sciencesAnodeAnodechemistryMolybdenumReagentElectrochemistryPhenanthrenesChemoselectivityPolycyclic arenes0210 nano-technologySelectivityIsomerizationElectrochimica Acta

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Front Cover: Electrosynthetic Screening and Modern Optimization Strategies for Electrosynthesis of Highly Value‐added Products (ChemElectroChem 14/20…

2021

Computer sciencebusiness.industry02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnologyElectrosynthesis01 natural sciencesCatalysis0104 chemical sciencesFront coverElectrochemistryValue added0210 nano-technologyProcess engineeringbusinessChemElectroChem

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Electrosynthetic screening and modern optimization strategies for electrosynthesis of highly value-added products

2021

540 Chemistry and allied sciences010405 organic chemistryComputer science02 engineering and technology021001 nanoscience & nanotechnology010402 general chemistryElectrosynthesis01 natural sciencesCatalysis0104 chemical sciencesCheminformatics540 ChemieElectrochemistryBiochemical engineeringValue added0210 nano-technology

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Get into flow: Design of experiments as a key technique in the optimization of anodic dehydrogenative C,C cross-coupling reaction of phenols in flow …

2021

Abstract The optimization of electro-organic reactions poses a challenge due to the various parameters involved. Quite often those parameters are not independent from each other, leading the experimental scientist using linear approaches into an optimization loophole. We report a strategy for the optimization of the anodic oxidative dehydrogenative C,C cross-coupling reactions for the synthesis of biphenols based on Design of Experiments (DoE), which overcomes the drawbacks of linear optimization approaches. Using a fractional design, we increased the yield of a long-time investigated example reaction from 44% up to 85% and point out different suitable reaction conditions through to linear …

Materials scienceLinear programmingGeneral Chemical EngineeringDesign of experiments02 engineering and technologyParameter space010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesCoupling reaction0104 chemical sciencesAnodeYield (chemistry)Linear regressionElectrochemistryPoint (geometry)0210 nano-technologyBiological systemElectrochimica Acta

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