Organic Photocatalysis: Carbon Nitride Semiconductors vs. Molecular Catalysts

Markushyna, Yevheniia; Smith, Christene A.; Savateev, Aleksandr

doi:10.1002/ejoc.201901112

Cited by 84 publications

(75 citation statements)

References 161 publications

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“…[67] At the same time, application of carbon nitrides in organic photoredox catalysis has been summarized in the dedicated reviews. [68,69,70,71] Recapitulating available literature we conclude that, in general, CN-based photocatalysts of sophisticated structure, such as those featuring heterojunction and exquisite morphology, are employed in water splitting and environmental applications (model reactions), while CNs photocatalysts with large surface area and stoichiometry close to C 3 N 4 are commonly employed in organic synthesis.…”

Section: Overview Of Photocatalytically Active Materialsmentioning

confidence: 69%

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Emerging Concepts in Carbon Nitride Organic Photocatalysis

Mazzanti

Savateev

2020

ChemPlusChem

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Carbon nitrides encompass a class of transition-metal-free materials possessing numerous advantages such as low cost (few Euros per gram), high chemical stability, broad tunability of redox potentials and optical bandgap, recyclability, and a high absorption coefficient (> 10 5 cm À 1), which make them highly attractive for application in photoredox catalysis. In this Review, we classify carbon nitrides based on their unique properties, structure, and redox potentials. We summarize recently emerging concepts in heterogeneous carbon nitride photocatalysis, with an emphasis on the synthesis of organic compounds: 1) Illumination-Driven Electron Accumulation in Semiconductors and Exploitation (IDEASE); 2) singlet-triplet intersystem crossing in carbon nitride excited states and related energy transfer; 3) architectures of flow photoreactors; and 4) dual metal/carbon nitride photocatalysis. The objective of this Review is to provide a detailed overview regarding innovative research in carbon nitride photocatalysis focusing on these topics.

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Section: Overview Of Photocatalytically Active Materialsmentioning

confidence: 69%

“…Overall, a comprehensive summary on CNs synthesis, characterization, properties, and environmental applications are available in reviews [67] . At the same time, application of carbon nitrides in organic photoredox catalysis has been summarized in the dedicated reviews [68,69,70,71] …”

Section: Introductionmentioning

confidence: 99%

Emerging Concepts in Carbon Nitride Organic Photocatalysis

Mazzanti

Savateev

2020

ChemPlusChem

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“…The heterogeneous photocatalysts employed in the aforementioned complex photoredox organic synthesis under visible light has not yet been thoroughly reviewed, to the best of our knowledge.W en oticed that metal oxides, C 3 N 4 , [15] plasmatic nanostructures fororganic pollutants degradation, [16] simple organic compound transformation/decomposition via oxidations or reductionsh ave been previously illustrated. [12b,d] We also noted that perovskites for photocatalysis towards water splitting, CO 2 reduction etc.h ave also been recently reviewed.…”

Section: Current Overview Of Photocatalystsmentioning

confidence: 99%

Photoredox Organic Synthesis Employing Heterogeneous Photocatalysts with Emphasis on Halide Perovskite

Lin

Guo

Martin

et al. 2020

Chemistry A European J

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“…The organic semiconductors have also been efficiently employed in a continuous flow system for chemical synthesis eliminating the last obstacle (poor light penetration in heterogeneous solidliquid mixture) on the way to widespread applications in organic synthesis 2 . Because of their low cost, ease of synthesis and stability against reactive intermediates and photobleaching, CNs already play an important role as heterogeneous photocatalysts for organic transformations [3][4][5] . CNs are also very versatile, and can be tailored depending on the application by bandgap engineering at the atomic and molecular level 6,7 .…”

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Dichloromethylation of enones by carbon nitride photocatalysis

et al. 2020

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Small organic radicals are ubiquitous intermediates in photocatalysis and are used in organic synthesis to install functional groups and to tune electronic properties and pharmacokinetic parameters of the final molecule. Development of new methods to generate small organic radicals with added functionality can further extend the utility of photocatalysis for synthetic needs. Herein, we present a method to generate dichloromethyl radicals from chloroform using a heterogeneous potassium poly(heptazine imide) (K-PHI) photocatalyst under visible light irradiation for C1-extension of the enone backbone. The method is applied on 15 enones, with γ,γ-dichloroketones yields of 18-89%. Due to negative zeta-potential (−40 mV) and small particle size (100 nm) K-PHI suspension is used in quasi-homogeneous flow-photoreactor increasing the productivity by 19 times compared to the batch approach. The resulting γ,γ-dichloroketones, are used as bifunctional building blocks to access valueadded organic compounds such as substituted furans and pyrroles.

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Organic Photocatalysis: Carbon Nitride Semiconductors vs. Molecular Catalysts

Cited by 84 publications

References 161 publications

Emerging Concepts in Carbon Nitride Organic Photocatalysis

Emerging Concepts in Carbon Nitride Organic Photocatalysis

Photoredox Organic Synthesis Employing Heterogeneous Photocatalysts with Emphasis on Halide Perovskite

Dichloromethylation of enones by carbon nitride photocatalysis

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