AI Article Synopsis
- Biomimetic metal-organic frameworks (MOFs) serve as models for understanding biological catalysts, leading to insights into their functionalities.
- A metal-metalloporphyrin framework (MMPF) was synthesized to act as an effective catalyst for Diels-Alder reactions using halogen bonding in its structure.
- Experimental and computational studies confirm that MMPF facilitates molecular interactions through its pores, enhancing catalytic efficiency and opening new avenues for designing selective catalytic materials.
Article Abstract
Biomimetic metal-organic frameworks have attracted great attention as they can be used as bio-inspired models, allowing us to gain important insights into how large biological molecules function as catalysts. In this work, we report the synthesis and utilization of such a metal-metalloporphyrin framework (MMPF) that is constructed from a custom-designed ligand as an efficient halogen bond donor catalyst for Diels-Alder reactions under ambient conditions. The implementation of fabricated halogen bonding capsule as binding pocket with high-density C-Br bonds enabled the use of halogen bonding to facilitate organic transformations in their three-dimensional cavities. Through combined experimental and computational studies, we showed that the substrate molecules diffuse through the pores of the MMPF, establishing a host-guest system via the C-Br⋅⋅⋅π interaction. The formation of halogen bonds is a plausible explanation for the observed boosted catalytic efficiency in Diels-Alder reactions. Moreover, the unique capability of MMPF highlights new opportunities in using artificial non-covalent binding pockets as highly tunable and selective catalytic materials.
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| http://dx.doi.org/10.1002/anie.202111893 | DOI Listing |
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