4.4 Article

A visible-light photoinduced controlled radical polymerization using recyclable MIL-100 (Fe) metal-organic frameworks

Journal

JOURNAL OF POLYMER RESEARCH
Volume 30, Issue 12, Pages -

Publisher

SPRINGER
DOI: 10.1007/s10965-023-03818-z

Keywords

Metal-organic frameworks (MOFs); MIL-100(Fe); Photocatalyst; Radical polymerization; Atom transfer radical polymerization

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Controlled polymerization techniques have improved significantly with the use of light energy to control radical polymerizations. Metal-organic frameworks (MOFs), as a new type of heterogeneous photocatalyst, have shown great potential in achieving controlled polymerization reactions under visible light and natural sunlight, even in the presence of oxygen. The MOF catalyst allows for the preparation of various polymer compositions with high catalytic efficiency and reusability.
Controlled polymer techniques have significantly advanced thanks to using the energy of light to control radical polymerizations. Although many photocatalysts (e.g. metal catalysts, organocatalysts, semiconductor materials, etc.) have been reported, most of these catalysts are still expensive synthetic, trace oxygen-sensitive, and often use UV source light to create the activator to the polymerization. Metal-organic frameworks (MOFs), consisting of metal clusters coordinated to organic ligands, are rising stars as heterogeneous photocatalysis for living radical polymerization techniques because they have many advantages such as facile operation, low toxicity, air stability, and sustainability. Herein, we reported a robust and versatile Fe(III)-MOF, MIL-100(Fe), as a heterogeneous photocatalyst for controlled atom transfer radical polymerization (ATRP) under visible light and natural sunlight without any additives. Moreover, controlled polymerization was also achieved in the presence of oxygen. Many polymer compositions including homopolymers, random copolymers, and diblock copolymers were successfully prepared with well-defined molecular weights and narrow dispersity index values (D < 1.5). Most importantly, the heterogeneous Fe(III)-MOF catalyst was allowed easily separated and can be reused again for ATRP reaction for ten cycles that maintains the high photocatalytic efficiency. This method provides a new avenue for exploring MIL-100(Fe) as a low-cost, high-performance, and sustainable catalyst for photo-ATRP.

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