Issue 26, 2024

Utilization of a trinuclear Cu-pyrazolate inorganic motif to build multifunctional MOFs

Abstract

The current work aims to generate multifunctional MOFs by incorporating a well-known inorganic motif, a trinuclear Cu-pyrazolate [Cu33-OH)(μ-Pyz)3] (T-CuP) unit, as a node of the network. Accordingly, we report herein the synthesis and properties of five new compounds using five V-shaped dicarboxylic acids as auxiliary ligands. The structural features are consistent with the theme of grafting T-CuP units as nodal points of architectures whose chassis are primarily made of bent acids. V-shaped acids also induce a helical nature inside resulting frameworks. Beside their structural and physical features, T-CuP unit-based MOFs also vindicate our thematic approach of the trinuclear Cu-pyrazolate unit imparting specific physicochemical properties, such as magnetic, electrical, and catalytic properties, to resultant MOFs. The MOFs show excellent catalytic properties in reducing 4-nitrophenol, which could be attributed to the porous nature of the network along with the presence of metal centres with unsaturated coordination within the T-CuP unit. Furthermore, efficient photocatalytic degradation of harmful organic dyes confirms their importance for environmental remediation. The presence of a T-CuP unit and various functional groups also make some of the MOFs suitable candidates for electrical applications, which is indeed manifested in encouraging proton conductivity. Finally, the potential of current MOFs, fitted with a magnetically important trinuclear Cu-pyrazolate motif, as magnetic materials has also been thoroughly investigated.

Graphical abstract: Utilization of a trinuclear Cu-pyrazolate inorganic motif to build multifunctional MOFs

Supplementary files

Article information

Article type
Paper
Submitted
03 Apr 2024
Accepted
31 May 2024
First published
31 May 2024

Dalton Trans., 2024,53, 11021-11037

Utilization of a trinuclear Cu-pyrazolate inorganic motif to build multifunctional MOFs

S. Saha, S. Akhtar, S. Pramanik, S. Bala and R. Mondal, Dalton Trans., 2024, 53, 11021 DOI: 10.1039/D4DT00986J

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