Issue 3, 2023

Ferric ion substitution renders cadmium metal–organic framework derivatives for modulated Li storage based on local oxidation active centers

Abstract

In this work, a novel anionic Cd-MOF ([(CH3)2NH2]n[Cd(HL)DMF]n·2nH2O·nDMF, H4L = 1,2,4,5-tetrakis[(4-carboxy)phenoxymethyl]benzene) was synthesized for the first time. As a precursor, it was utilized to obtain Fe@Cd-MOF crystals via the substitution of Fe3+ ions due to a negatively charged framework and free-coordinated carboxyl group. Fe3O4/Fe-embedded carbon-based materials (Fe@Cd-MOFD) were further constructed by deriving Fe@Cd-MOF at high temperatures. The derived Fe@Cd-MOFD showed a structure resembling a central city with metal redox centers embedded into a carbon matrix. The introduced Fe3+ ions formed a local nano-sized metal oxide upon annealing, and these derived carbon materials offered high electronic conductivity. These pushed Fe@Cd-MOFD to remarkable electrochemical performance with an initial discharge capacity of 1703.8 mA h g−1. This work offers new insights into the fabrication of novel MOF-derived iron oxide hybrids for lithium storage.

Graphical abstract: Ferric ion substitution renders cadmium metal–organic framework derivatives for modulated Li storage based on local oxidation active centers

Supplementary files

Article information

Article type
Paper
Submitted
19 Oct 2022
Accepted
06 Dec 2022
First published
07 Dec 2022

Dalton Trans., 2023,52, 754-762

Ferric ion substitution renders cadmium metal–organic framework derivatives for modulated Li storage based on local oxidation active centers

W. Jiang, B. Gao, G. Yan, S. Xu, X. Chu, G. Che, B. Liu, M. Lu and C. Liu, Dalton Trans., 2023, 52, 754 DOI: 10.1039/D2DT03392E

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