Reactive high-spin iron(IV)-oxo sites through dioxygen activation in a 
metal–organic framework

Hou, Kaipeng; Börgel, Jonas; Jiang, Henry Z. H.; SantaLucia, Daniel J.; Kwon, Hyunchul; Zhuang, Hao; Chakrawet, Khetpakorn; Rohde, Rachel C.; Taylor, Jordan W.; Dun, Chaochao; Paley, Maria V.; Turkiewicz, Ari B.; Park, Jesse G.; Mao, Haiyan; Zhu, Ziting; Alp, E. Ercan; Zhao, Jiyong; Hu, Michael Y.; Lavina, Barbara; Peredkov, Sergey; Lv, Xudong; Oktawiec, Julia; Meihaus, Katie R.; Pantazis, Dimitrios A.; Vandone, Marco; Colombo, Valentina; Bill, Eckhard; Urban, Jeffrey J.; Britt, R. David; Grandjean, Fernande; Long, Gary J.; DeBeer, Serena; Neese, Frank; Reimer, Jeffrey A.; Long, Jeffrey R.

doi:10.1126/science.add7417

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Reactive high-spin iron(IV)-oxo sites through dioxygen activation in a metal–organic framework

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SantaLucia, Daniel J.
Max Planck Institute for Chemical Energy Conversion;
Research Department Neese, Max-Planck-Institut für Kohlenforschung, Max Planck Society;

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Pantazis, Dimitrios A.
Research Group Pantazis, Max-Planck-Institut für Kohlenforschung, Max Planck Society;

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Neese, Frank
Research Department Neese, Max-Planck-Institut für Kohlenforschung, Max Planck Society;

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Citation

Hou, K., Börgel, J., Jiang, H. Z. H., SantaLucia, D. J., Kwon, H., Zhuang, H., et al. (2023). Reactive high-spin iron(IV)-oxo sites through dioxygen activation in a metal–organic framework. Science, 382(6670), 547-553. doi:10.1126/science.add7417.

Cite as: https://hdl.handle.net/21.11116/0000-000E-3460-B

Abstract

In nature, nonheme iron enzymes use dioxygen to generate high-spin iron(IV)=O species for a variety of oxygenation reactions. Although synthetic chemists have long sought to mimic this reactivity, the enzyme-like activation of O₂ to form high-spin iron(IV)=O species remains an unrealized goal. Here, we report a metal–organic framework featuring iron(II) sites with a local structure similar to that in α-ketoglutarate-dependent dioxygenases. The framework reacts with O₂ at low temperatures to form high-spin iron(IV)=O species that are characterized using in situ diffuse reflectance infrared Fourier transform, in situ and variable-field Mössbauer, Fe Kβ x-ray emission, and nuclear resonance vibrational spectroscopies. In the presence of O₂, the framework is competent for catalytic oxygenation of cyclohexane and the stoichiometric conversion of ethane to ethanol.