Arianna Actis scite author profile

Carbon nitride (CN) is a heterogeneous photocatalyst that combines good structural properties and a broad scope. The photocatalytic efficiency of CN is associated with the presence of defective and radical species. An accurate description of defective states—both at a local and extended level—is key to develop a thorough mechanistic understanding of the photophysics of CN. In turn, this will maximise the generation and usage of photogenerated charge carriers and minimise wasteful charge recombination. Here the influence of morphology and light‐excitation on the number and chemical nature of radical defects is assessed. By exploiting the magnetic dipole‐dipole coupling, the spatial distribution of native radicals in CN is derived with high precision. From the analysis an average distance in the range 1.99–2.34 nm is determined, which corresponds to pairs of radicals located approximately four tri‐s‐triazine units apart.

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Tailored amorphization of graphitic carbon nitride triggers superior photocatalytic C–C coupling towards the synthesis of perfluoroalkyl derivatives

Longobardo

Gentile

Criado

et al. 2021

Mater. Chem. Front.

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Radical defects modulate the photocatalytic response in 2D-graphitic carbon nitride

et al. 2022

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Carbon Vacancies Steer the Activity in Dual Ni Carbon Nitride Photocatalysis

et al. 2023

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The manipulation of carbon nitride (CN) structures is one main avenue to enhance the activity of CN‐based photocatalysts. Increasing the efficiency of photocatalytic heterogeneous materials is a critical step toward the realistic implementation of sustainable schemes for organic synthesis. However, limited knowledge of the structure/activity relationship in relation to subtle structural variations prevents a fully rational design of new photocatalytic materials, limiting practical applications. Here, the CN structure is engineered by means of a microwave treatment, and the structure of the material is shaped around its suitable functionality for Ni dual photocatalysis, with a resulting boosting of the reaction efficiency toward many CX (X = N, S, O) couplings. The combination of advanced characterization techniques and first‐principle simulations reveals that this enhanced reactivity is due to the formation of carbon vacancies that evolve into triazole and imine N species able to suitably bind Ni complexes and harness highly efficient dual catalysis. The cost‐effective microwave treatment proposed here appears as a versatile and sustainable approach to the design of CN‐based photocatalysts for a wide range of industrially relevant organic synthetic reactions.

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Framework coordination of single-ion Cu²⁺ sites in hydrated ¹⁷O-ZSM-5 zeolite

Actis

Salvadori

Chiesa

2021

Catal. Sci. Technol.

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Arianna Actis

Morphology and Light‐Dependent Spatial Distribution of Spin Defects in Carbon Nitride

Tailored amorphization of graphitic carbon nitride triggers superior photocatalytic C–C coupling towards the synthesis of perfluoroalkyl derivatives

Radical defects modulate the photocatalytic response in 2D-graphitic carbon nitride

Carbon Vacancies Steer the Activity in Dual Ni Carbon Nitride Photocatalysis

Framework coordination of single-ion Cu²⁺ sites in hydrated ¹⁷O-ZSM-5 zeolite

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Arianna Actis

Morphology and Light‐Dependent Spatial Distribution of Spin Defects in Carbon Nitride

Tailored amorphization of graphitic carbon nitride triggers superior photocatalytic C–C coupling towards the synthesis of perfluoroalkyl derivatives

Radical defects modulate the photocatalytic response in 2D-graphitic carbon nitride

Carbon Vacancies Steer the Activity in Dual Ni Carbon Nitride Photocatalysis

Framework coordination of single-ion Cu2+ sites in hydrated 17O-ZSM-5 zeolite

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Framework coordination of single-ion Cu²⁺ sites in hydrated ¹⁷O-ZSM-5 zeolite