Visible-Light-Driven Porphyrin-Based Bimetallic Metal-Organic Frameworks for Selective Photoreduction of Nitro Compounds under Mild Conditions

Selective reduction of nitroaromatics to the corresponding amines generally requires complex conditions, involving pressurized hydrogen, higher temperatures, or organic acids. In this work, we successfully prepared a series of porphyrin-based MOF photocatalysts (Pd-PMOFs, In-PMOFs, and In/Pd-PMOFs) via a facile solvothermal method for the efficient selective reduction of nitroaromatics to corresponding anilines with deionized water as the hydrogen donor. Being a new structured material (monoclinic, C52H40InN6O8Pd), on account of the abundant pore channels, strong light absorption capability, well-matched bandgap, as well as the coordination of indium ions and palladium ions, In/Pd-MOFs have excellent migration efficiency of photo-induced electrons and holes. Specifically, the In/Pd-PMOF photocatalyst manifested superior conversion (100%) and selectivity (>= 80%) toward the screened nitro compounds under mild conditions. This work avoids the use of strong reductants, organic acids, and pressurized hydrogen gas as hydrogen sources, providing a promising concept for developing green catalytic systems.

Automated summary

In this work, a series of porphyrin-based MOF photocatalysts were successfully prepared via a facile solvothermal method, which showed excellent migration efficiency of photo-induced electrons and holes. The In/Pd-PMOF photocatalyst exhibited superior conversion (100%) and selectivity (>= 80%) toward the nitro compounds under mild conditions, using deionized water as the hydrogen donor. This study provides a promising concept for developing green catalytic systems without the use of strong reductants, organic acids, and pressurized hydrogen gas as hydrogen sources.