85. Highly active, ultra-low loading single-atom iron catalysts for catalytic transfer hydrogenation

An, Z.; Yang, P.; Duan, D.; Li, J.;* Wan, T.; Kong, Y.; Caratzoulas, S.; Xiang, S.; Liu, J.; Huang, L.; Frenkel, A. I.; Jiang, Y.-Y.; Long, R.;* Li, Z.;* Vlachos, D. G.* Nat. Commun. 2023, 14, 6666.

2024-04-22 20:23

An, Z.; Yang, P.; Duan, D.; Li, J.;* Wan, T.; Kong, Y.; Caratzoulas, S.; Xiang, S.; Liu, J.; Huang, L.; Frenkel, A. I.; Jiang, Y.-Y.; Long, R.;* Li, Z.;* Vlachos, D. G.* Nat. Commun. 2023, 14, 6666. Download Link.

Abstract:  Highly effective and selective noble metal-free catalysts attract significant attention. Here, a single-atom iron catalyst is fabricated by saturated adsorption of trace iron onto zeolitic imidazolate framework-8 (ZIF-8) followed by pyrolysis. Its performance toward catalytic transfer hydrogenation of furfural is comparable to state-of-the-art catalysts and up to four orders higher than other Fe catalysts. Isotopic labeling experiments demonstrate an intermolecular hydride transfer mechanism. First principles simulations, spectroscopic calculations and experiments, and kinetic correlations reveal that the synthesis creates pyrrolic Fe(II)-plN3 as the active center whose flexibility manifested by being pulled out of the plane, enabled by defects, is crucial for collocating the reagents and allowing the chemistry to proceed. The catalyst catalyzes chemoselectively several substrates and possesses a unique trait whereby the chemistry is hindered for more acidic substrates than the hydrogen donors. This work paves the way toward noble-metal free singleatom catalysts for important chemical reactions.

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