Assembly of a Heterometallic Cu(II)-Pd(II) Cage by Post-assembly Metal Insertion

Mei Tieng Yong; Oliver M. Linder-Patton; Witold M. Bloch

doi:10.1021/acs.inorgchem.2c02046

Assembly of a Heterometallic Cu(II)-Pd(II) Cage by Post-assembly Metal Insertion

Mei Tieng Yong, Oliver M. Linder-Patton, Witold M. Bloch

Flinders Institute for Nanoscale Science and Technology

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

14 Citations (Scopus)

Abstract

Porous structures based on multi-metallic motifs are receiving growing interest, but their general preparation still remains a challenge. Here, we report the self-assembly and structure of a CuII metal-organic cage (MOC) that is functionalized with free bis(pyrazolyl)methane sites. The homometallic Cu4L4 cage is isolated as a water-stable crystalline solid, and its formation is dependent on metal-ligand stoichiometry and the pre-organization of the Cu2 paddlewheel. We show by X-ray diffraction and SEM-EDX that PdII chloride can be quantitatively inserted into the free chelating sites of the MOC to yield a [Cu4(L(PdCl2))4] structure. Moreover, the solvent employed in the metalation dictates the solid-state isomerism of the heterometallic cage-a further handle to control the MOC's structural diversity and permanent porosity.

Original language	English
Pages (from-to)	12863-12869
Number of pages	7
Journal	Inorganic Chemistry
Volume	61
Issue number	32
DOIs	https://doi.org/10.1021/acs.inorgchem.2c02046
Publication status	Published - 15 Aug 2022

Keywords

Heterometallic Cu(II)-Pd(II)
Post-assembly Metal Insertion
Porous structures
metal−organic cage
MOC

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title = "Assembly of a Heterometallic Cu(II)-Pd(II) Cage by Post-assembly Metal Insertion",

abstract = "Porous structures based on multi-metallic motifs are receiving growing interest, but their general preparation still remains a challenge. Here, we report the self-assembly and structure of a CuII metal-organic cage (MOC) that is functionalized with free bis(pyrazolyl)methane sites. The homometallic Cu4L4 cage is isolated as a water-stable crystalline solid, and its formation is dependent on metal-ligand stoichiometry and the pre-organization of the Cu2 paddlewheel. We show by X-ray diffraction and SEM-EDX that PdII chloride can be quantitatively inserted into the free chelating sites of the MOC to yield a [Cu4(L(PdCl2))4] structure. Moreover, the solvent employed in the metalation dictates the solid-state isomerism of the heterometallic cage-a further handle to control the MOC's structural diversity and permanent porosity. ",

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AU - Linder-Patton, Oliver M.

AU - Bloch, Witold M.

PY - 2022/8/15

Y1 - 2022/8/15

N2 - Porous structures based on multi-metallic motifs are receiving growing interest, but their general preparation still remains a challenge. Here, we report the self-assembly and structure of a CuII metal-organic cage (MOC) that is functionalized with free bis(pyrazolyl)methane sites. The homometallic Cu4L4 cage is isolated as a water-stable crystalline solid, and its formation is dependent on metal-ligand stoichiometry and the pre-organization of the Cu2 paddlewheel. We show by X-ray diffraction and SEM-EDX that PdII chloride can be quantitatively inserted into the free chelating sites of the MOC to yield a [Cu4(L(PdCl2))4] structure. Moreover, the solvent employed in the metalation dictates the solid-state isomerism of the heterometallic cage-a further handle to control the MOC's structural diversity and permanent porosity.

AB - Porous structures based on multi-metallic motifs are receiving growing interest, but their general preparation still remains a challenge. Here, we report the self-assembly and structure of a CuII metal-organic cage (MOC) that is functionalized with free bis(pyrazolyl)methane sites. The homometallic Cu4L4 cage is isolated as a water-stable crystalline solid, and its formation is dependent on metal-ligand stoichiometry and the pre-organization of the Cu2 paddlewheel. We show by X-ray diffraction and SEM-EDX that PdII chloride can be quantitatively inserted into the free chelating sites of the MOC to yield a [Cu4(L(PdCl2))4] structure. Moreover, the solvent employed in the metalation dictates the solid-state isomerism of the heterometallic cage-a further handle to control the MOC's structural diversity and permanent porosity.

KW - Heterometallic Cu(II)-Pd(II)

KW - Post-assembly Metal Insertion

KW - Porous structures

KW - metal−organic cage

KW - MOC

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ER -

Assembly of a Heterometallic Cu(II)-Pd(II) Cage by Post-assembly Metal Insertion

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Keywords

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