Regulating the coordination environment of mesopore‐confined single atoms from metalloprotein‐MOFs for highly efficient biocatalysis (Adv. Mater. 44/2022)

Single-Atom Catalysts In article number 2205674, Kang Liang and co-workers develop a generalized strategy to construct highly active ferric-centered single-atom catalysts via a biomineralization strategy that enables the homogeneous encapsulation of metalloproteins within metal-organic frameworks followed by pyrolysis. The enhanced activity of the obtained catalysts benefits from the highly dispersed atoms, the mesopores, and the regulated coordination environment of the single-atom active sites induced by the metalloproteins. © 2022 Wiley-VCH GmbH. This is the front cover of the journal.

Keywords

Atoms, Catalysts, Homogeneous catalysis, Metalloproteins, Encapsulation, Metals, Pyrolysis

Citation

Liang, J., Johannessen, B., Wu, Z., Webster, R. F., Yong, J., Zulkifli, M. Y. B., Harbort, J. S., Cheok, Y. R., Wen, H., Ao, Z., Kong, B., Chang, S. L. Y., Scott, J., & Liang, K. (2022). Regulating the coordination environment of mesopore-confined single atoms from metalloprotein-MOFs for highly efficient biocatalysis (Adv. Mater. 44/2022). Advanced Materials, 34(44), 2270303. doi:10.1002/adma.202270303

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https://doi.org/10.1002/adma.202270303
https://apo.ansto.gov.au/handle/10238/16886

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Regulating the coordination environment of mesopore‐confined single atoms from metalloprotein‐MOFs for highly efficient biocatalysis (Adv. Mater. 44/2022)

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