Exploring the Solution Formation of UiO Family Hf Metal-Organic Framework clusters with in situ X-Ray Pair Distribution Function Analysis

29 June 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The structures of Zr and Hf metal-organic frameworks (MOFs) are very sensitive to small changes in synthetic conditions. One key difference affecting the structure of UiO MOF phases is the shape and nuclearity of Zr or Hf metal clusters acting as nodes in the framework; although these clusters are crucial, their evolution during MOF synthesis is not fully understood. In this paper, we explore the nature of Hf metal clusters which form in different reaction solutions, including in a mixture of DMF, formic acid and water. We show that the choice of solvent and reaction temperature in UiO MOF syntheses determines the cluster identity and hence the MOF structure. Using in situ X-ray pair distribution function measurements, we demonstrate that the evolution of different Hf cluster species can be tracked during UiO MOF synthesis, from solution stages to the full crystalline framework, and use our understanding to propose a formation mechanism for the hcp UiO-66(Hf) MOF, in which first the metal clusters aggregate from the M6 cluster (as in fcu UiO-66) to the hcp-characteristic M12 double cluster, and following this, the crystalline hcp framework forms. These insights pave the way towards rationally designing syntheses of as-yet unknown MOF structures, via tuning the synthesis conditions to select different cluster species.

Keywords

MOF
metal-organic framework
metal organic framework
metal oxo cluster
metal oxo cluster
in situ
pair distribution function
UiO-66
precursors
crystallisation
XPDF

Supplementary materials

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Title
Supporting Information: Exploring the Solution Formation of UiO Family Hf Metal-Organic Framework clusters with in situ X-Ray Pair Distribution Function Analysis
Description
Supporting Information: Schematic of experimental setup, additional simulations and refinements and in situ F(Q) data.
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