A lanthanide MOF with nanostructured node disorder

Sarah L. Griffin; Emily G. Meekel; Johnathan M. Bulled; Stefano Canossa; Alexander Wahrhaftig-Lewis; Ella M. Schmidt; Neil R. Champness

doi:10.1038/s41467-025-58402-4

A lanthanide MOF with nanostructured node disorder

Sarah L. Griffin
, Emily G. Meekel
, Johnathan M. Bulled
, Stefano Canossa
, Alexander Wahrhaftig-Lewis
, Ella M. Schmidt
, Neil R. Champness^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

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Abstract

Structural disorder can be used to tune the properties of functional materials and is an important tool that can be employed for the development of complex framework materials, such as metal-organic frameworks. Here we show the synthesis and structural characterization of a metal-organic framework, UoB-100(Dy). Average structure refinements indicate that the node is disordered between two orientations of the nonanuclear secondary building unit (SBU). By performing 3D diffuse scattering (DS) analysis and Monte Carlo (MC) simulations, we confirm the presence of strong correlations between the metal clusters of UoB-100(Dy). These nodes assemble into a complex nanodomain structure. Quantum mechanical calculations identify linker strain as the driving force behind the nanodomain structure. The implications of such a nanodomain structure for the magnetic, gas storage, and mechanical properties of lanthanide MOFs are discussed.

Original language	English
Article number	3209
Number of pages	9
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-58402-4
Publication status	Published - 3 Apr 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

ASJC Scopus subject areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-025-58402-4Licence: Creative Commons: Attribution (CC BY)

GriffinS2025LanthanideFinal published version, 2.23 MBLicence: Creative Commons: Attribution (CC BY)

Complex-bearing Metal-Organic Frameworks: Snapshots of Reactions
Champness, N. (Principal Investigator)
Engineering & Physical Science Research Council
1/01/21 → 31/12/24
Project: Research Councils

Cite this

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title = "A lanthanide MOF with nanostructured node disorder",

abstract = "Structural disorder can be used to tune the properties of functional materials and is an important tool that can be employed for the development of complex framework materials, such as metal-organic frameworks. Here we show the synthesis and structural characterization of a metal-organic framework, UoB-100(Dy). Average structure refinements indicate that the node is disordered between two orientations of the nonanuclear secondary building unit (SBU). By performing 3D diffuse scattering (DS) analysis and Monte Carlo (MC) simulations, we confirm the presence of strong correlations between the metal clusters of UoB-100(Dy). These nodes assemble into a complex nanodomain structure. Quantum mechanical calculations identify linker strain as the driving force behind the nanodomain structure. The implications of such a nanodomain structure for the magnetic, gas storage, and mechanical properties of lanthanide MOFs are discussed.",

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AU - Griffin, Sarah L.

AU - Meekel, Emily G.

AU - Bulled, Johnathan M.

AU - Canossa, Stefano

AU - Wahrhaftig-Lewis, Alexander

AU - Schmidt, Ella M.

AU - Champness, Neil R.

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AB - Structural disorder can be used to tune the properties of functional materials and is an important tool that can be employed for the development of complex framework materials, such as metal-organic frameworks. Here we show the synthesis and structural characterization of a metal-organic framework, UoB-100(Dy). Average structure refinements indicate that the node is disordered between two orientations of the nonanuclear secondary building unit (SBU). By performing 3D diffuse scattering (DS) analysis and Monte Carlo (MC) simulations, we confirm the presence of strong correlations between the metal clusters of UoB-100(Dy). These nodes assemble into a complex nanodomain structure. Quantum mechanical calculations identify linker strain as the driving force behind the nanodomain structure. The implications of such a nanodomain structure for the magnetic, gas storage, and mechanical properties of lanthanide MOFs are discussed.

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A lanthanide MOF with nanostructured node disorder

Abstract

Bibliographical note

ASJC Scopus subject areas

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Projects

Complex-bearing Metal-Organic Frameworks: Snapshots of Reactions

Cite this