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Molecular light-to-heat conversion promotes orthogonal synthesis and assembly of metal-organic frameworks

Aritra Biswas, Nir Lemcoff, Ofir Shelonchik, Mark Baranov, Guy C. Gordon, Uri Ben Nun, Yossi Weizmann

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

Temperature is a fundamental parameter in any chemical process, affecting reaction rates, selectivity and more. In this regard, photon-assisted heat generation for chemical reactions utilizing photothermal materials is emerging as an exciting tool for innovative research. Herein, we develop a synthesis and in-situ assembly strategy for metal-organic frameworks (MOFs) based on the distinct heating of photothermal materials under visible light. A simple cobalt chloride molecular complex is utilized as an efficient and stable light-to-heat converter for initial MOF formation. A thorough investigation of the assembly mechanism reveals the key role photothermal conversion has in the synthesis of the superstructures. Finally, palladium nanoparticles (PdNPs) are utilized as competing photothermal agents (PTAs) shedding light on the dynamics between different heat sources within a reaction and resulting in MOF-NP composites. This work highlights the versatility of the photothermal approach in the synthesis of advanced materials introducing a promising route to the micro/nano assembly of different materials. Controlling the reaction temperature is critical in chemistry. Here, the authors harness molecular-photothermal conversion to synthesize and assemble MOFs with tunable structures under different light wavelengths for advanced materials.

Topics & Concepts

Metal-organic frameworkMaterials scienceMetalNanotechnologyChemistryOrganic chemistryMetallurgyAdsorptionMetal-Organic Frameworks: Synthesis and ApplicationsNanoplatforms for cancer theranosticsCovalent Organic Framework Applications