A flow reactor setup for photochemistry of biphasic gas/liquid reactions

Schachtner, Josef; Bayer, Patrick; Wangelin, Axel Jacobi von

doi:10.3762/bjoc.12.170

Cited by 34 publications

(26 citation statements)

References 78 publications

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“…The proposed mechanism was corroborated by DFT calculations and photochemical studies. This method is another example of the potential of chemical synthesis at the interfaces of three distinct physical entities: Visible light, a liquid phase, and a gaseous phase . Future efforts in our group will aim at the development of related multi‐component photocatalytic reactions with easily available gaseous reagents.…”

Section: Discussionmentioning

confidence: 90%

Aromatic Chlorosulfonylation by Photoredox Catalysis

2016

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Visible-light photoredox catalysis enables the efficient synthesis of arenesulfonyl chlorides from anilines. The new protocol involves the convenient in situ preparation of arenediazonium salts (from anilines) and the reactive gases SO and HCl (from aqueous SOCl ). The photocatalytic chlorosulfonylation operates at mild conditions (room temperature, acetonitrile/water) with low catalyst loading. Various functional groups are tolerated (e.g., halides, azides, nitro groups, CF , SF , esters, heteroarenes). Theoretical and experimental studies support a photoredox-catalysis mechanism.

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Section: Discussionmentioning

confidence: 90%

Aromatic Chlorosulfonylation by Photoredox Catalysis

2016

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“…[47] The key to this chemistry was the development of microflow setup for fast and efficient transformation. [47] The key to this chemistry was the development of microflow setup for fast and efficient transformation.…”

Section: Biphasic Gas/liquid Oxygenation Reactions In Flowmentioning

confidence: 99%

Metal‐Free Photocatalysts for C−H Bond Oxygenation Reactions with Oxygen as the Oxidant

2019

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Direct and selective oxygenation of C−H bonds to C−O bonds is regarded as an effective tool to generate high‐value products. However, these reactions are still subject to challenges such as harsh reaction conditions, use of expensive transition metal catalysts, and involvement of stoichiometric oxidants. To avoid these, molecular oxygen would be ideal as oxidant, as the byproduct is water or hydrogen peroxide. Additionally, achieving these reactions by using metal‐free catalysts would contribute to green and sustainable chemical synthesis. This Minireview summarizes recent reports on C−H oxygenation reactions with metal‐free catalysts and molecular oxygen under visible‐light conditions.

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“…Photocycloadditions were transferred from batch to continuous-flow mode proving the superior productivity of the flow reactors on the multi-gram scale. This reactor concept was then used as model 50 for a large number of custombuilt flow reactors for purely liquid or gas-liquid reactions like C-H functionalization of tertiary arylamines, 51 addition of glycosyl radicals into acrolein, 52 azide reduction and bromination of alcohols, 53 oxidative cyanation of amines, 54 the Stadler-Ziegler synthesis for aromatic C-S bond formation, 55 trifluoromethylation of heterocycles with gaseous ICF 3 , 56 or photooxygenation during juglone synthesis. 57 Tubular-based reactors enable segmented flow of gas and liquid slugs inside the channels or capillaries allowing efficient gas mass trans-fer into the liquid phase, while the reaction solution is fully illuminated.…”

Section: Introductionmentioning

confidence: 99%

Photonic contacting of gas–liquid phases in a falling film microreactor for continuous-flow photochemical catalysis with visible light

et al. 2016

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A microstructured falling film reactor was applied to the dye-sensitized photochemical conversion of 1,5dihydroxynaphthalene to juglone. This continuous-flow microreactor enables the efficient contacting of a gas and a liquid phase in combination with external irradiation by high-power LED arrays offering various wavelengths. Two sensitizers were used for the photochemical in situ generation of singlet oxygen as key step in the synthesis of the natural product juglone. The photochemical process was investigated according LED wavelength, LED power, oxygen partial pressure, reactor architecture, substrate concentration and flow rate, and optimized to a conversion of X = 97% with 99% selectivity. Based on the experimental results process parameters like quantum efficiency, productivity and space time yield were calculated and used for the evaluation of the photochemically catalyzed synthesis of juglone in continuous-flow mode.636 | React. Chem. Eng., 2016, 1, 636-648 This journal is Switzerland † Electronic supplementary information (ESI) available: Lab plant flow chart, sample taking device, HPLC analysis, UV/vis absorption spectra of the DHN and Juglone, oxygen gas-liquid mass transfer, TcPP synthesis, sensitized endoperoxide side-reaction, quantum efficiency calculation. See

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A flow reactor setup for photochemistry of biphasic gas/liquid reactions

Cited by 34 publications

References 78 publications

Aromatic Chlorosulfonylation by Photoredox Catalysis

Aromatic Chlorosulfonylation by Photoredox Catalysis

Metal‐Free Photocatalysts for C−H Bond Oxygenation Reactions with Oxygen as the Oxidant

Photonic contacting of gas–liquid phases in a falling film microreactor for continuous-flow photochemical catalysis with visible light

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