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Heterostructures based on g-C3N4 for photocatalytic CO2 reduction
R. F. Alekseevab,
A. A. Saraeva,
A. Yu. Kurenkovaa,
E. A. Kozlovaa a Boreskov Institute of Catalysis, Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russian Federation
b Novosibirsk State University, Novosibirsk, Russian Federation
Abstract:
In recent years, the interest of the global scientific community in the problems of CO
2 recycling and returning to the carbon cycle has markedly increased. Among various CO
2 transformation processes, photocatalytic reduction is one of the most promising. Currently, much attention is paid to photocatalysts based on graphitic carbon nitride, since the use of g-C
3N
4 makes it possible to perform CO
2 reduction under visible or solar radiation. To increase the efficiency of this process, g-C
3N
4 is subjected to various modifications; the most popular and promising approach is the synthesis of composite photocatalysts based on g-C
3N
4 with other semiconductors to form heterostructures. Depending on the type of semiconductor, transfer of photogenerated charges in these systems can occur by various mechanisms, which largely determine the direction of the process and the rate of formation of reaction products. This review addresses studies on the synthesis of composite photocatalysts based on g-C
3N
4, with emphasis being placed on the mechanisms of charge transfer and the distribution of products of CO
2 reduction.
Bibliography — 235 references.
Keywords:
photocatalysis; photocatalyst; heterogeneous catalysis; graphitic carbon nitride; carbon dioxide reduction; charge transfer mechanism; heterostructures; solar energy. Received: 26.03.2024
DOI:
10.59761/RCR5124
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