Journal ArticleDOI
Organized Aggregation Makes Insoluble Perylene Diimide Efficient for the Reduction of Aryl Halides via Consecutive Visible Light-Induced Electron-Transfer Processes
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TLDR
The tunable and modular nature of the two-dimensional metal-organic polymers makes the catalyst-embedding strategy promising for the development of ideal photocatalysts toward the better utilization of solar energy.Abstract:
The consecutive photo-induced electron-transfer (conPET) process found with perylene diimide (PDI) overcomes the limitation of visible-light photocatalysis and sheds light on effective solar energy conversion. By the incorporation of PDI into a metal-organic polymer Zn-PDI, a heterogeneous approach was achieved to tackle the poor solubility and strong tendency to aggregate of PDIs that restricted the exploitation of this outstanding homogeneous process. The interplay between metal-PDI coordination and π···π stacking of the organized PDI arrays in Zn-PDI facilitates the conPET process for the visible light-driven reduction of aryl halides by stabilizing the radical-anion intermediate and catalyst-substrate interacted moiety. These synergistic effects between the PDI arrays and Zn sites further render Zn-PDI photoactivity for fundamental oxidation of benzyl alcohols and amines. The tunable and modular nature of the two-dimensional metal-organic polymers makes the catalyst-embedding strategy promising for th...read more
Citations
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Journal ArticleDOI
Visible-Light Photocatalysis: Does It Make a Difference in Organic Synthesis?
TL;DR: This Review compares classical and photocatalytic procedures for selected classes of reactions and highlights their advantages and limitations.
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Visible Light Mediated Photoredox Catalytic Arylation Reactions
TL;DR: Photoredox catalytic C-H arylation reactions are valuable alternatives to metal catalyzed reactions, have an excellent functional group tolerance, could potentially avoid metal containing catalysts, and use visible light as a traceless reagent for the activation of arylating reagents.
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Photochemistry and photophysics of MOFs: steps towards MOF-based sensing enhancements.
TL;DR: The focus of this review is shifted towards a "beyond the pores" approach, which could foreshadow new guidelines for sensor engineering.
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Metal–Organic Frameworks: Versatile Materials for Heterogeneous Photocatalysis
TL;DR: The general history of photocatalysis based on porous metal-organic frameworks (MOFs) is divided into three branches with a focus placed on the distinct structural role of the photocatalytic center: the inorganic cluster nodes, the organic linkers, and the guests in the pores of MOFs.
References
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Visible Light Photoredox Catalysis with Transition Metal Complexes: Applications in Organic Synthesis
TL;DR: The conversion of these bench stable, benign catalysts to redox-active species upon irradiation with simple household lightbulbs represents a remarkably chemoselective trigger to induce unique and valuable catalytic processes.
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Introduction to Metal–Organic Frameworks
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Engineering Metal Organic Frameworks for Heterogeneous Catalysis
TL;DR: In conclusion, MOFs as Host Matrices or Nanometric Reaction Cavities should not be considered as a source of concern in the determination of MOFs’ properties in relation to other materials.
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Homochiral Metal–Organic Frameworks for Asymmetric Heterogeneous Catalysis
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Photosensitized singlet oxygen and its applications
TL;DR: In this article, the photophysical properties of singlet molecular oxygen and of the photosensitizers used in its generation are examined and compared, with particular focus on its role in wastewater treatment, fine chemical synthesis, and photodynamic therapy.