Direct Imaging of Isolated Single-Molecule Magnets in Metal–Organic Frameworks

Aulakh, Darpandeep; Liu, Lingmei; Varghese, Juby R.; Xie, Haomiao; İslamoğlu, Timur; Duell, Kyle; Kung, Chung Wei; Hsiung, Chia En; Zhang, Jintao; Drout, Riki J.; Farha, Omar K.; Dunbar, Kim R.; Han, Yu; Wriedt, Mario

doi:10.1021/jacs.8b11374

Cited by 82 publications

(83 citation statements)

References 43 publications

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“…8 Interactions between the host framework and guest molecule are central to such applications but are poorly understood at the molecular level. Although transmission electron microscopy (TEM) has been used to study the empty MOF framework, [9][10][11][12][13][14] imaging sub-nanometer guest insertion within the MOFs is still challenging. Of note, a recent study successfully imaged guest single-molecule magnets via TEM, but at relatively low dosage and large molecular size (> 1 nm) 14 .…”

mentioning

confidence: 99%

Cryo-EM Structures of Atomic Surfaces and Host-Guest Chemistry in Metal-Organic Frameworks

Wang

Zhou

et al. 2019

Matter

111

104

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Metal-organic frameworks (MOFs) are a large class of highly porous materials whose chemistry and structure can be tuned for potential applications in gas storage, separations, and catalysis. Interactions between the host framework and guest molecule are central to these applications, but the local atomic structure and chemistry of such interactions is poorly understood. Using cryogenic electron microscopy, we reveal the structural changes of MOFs during guest intercalation and spatially resolve their binding sites within the framework.

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mentioning

confidence: 99%

Cryo-EM Structures of Atomic Surfaces and Host-Guest Chemistry in Metal-Organic Frameworks

Wang

Zhou

et al. 2019

Matter

111

104

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“…In the following works authors could image even defects and their evolution in UiO-66 structure, [154] but also directly "see" the single molecular magnet molecules in the MOF pores [155] or directly look into the mesopores of MIL-101(Cr) structure. [156] Although a number of publications are reported on in situ liquid and solid-gas cells for TEM, these were not yet applied on the beam-sensitive nanoporous materials.…”

Section: In Situ Transmission Electron Microscopy On Mofsmentioning

confidence: 99%

“…In the following works authors could image even defects and their evolution in UiO‐66 structure, but also directly “see” the single molecular magnet molecules in the MOF pores or directly look into the mesopores of MIL‐101(Cr) structure …”

Section: In Situ Transmission Electron Microscopy On Mofsmentioning

confidence: 99%

Unraveling Structure and Dynamics in Porous Frameworks via Advanced In Situ Characterization Techniques

Bon

Brunner

Pöppl

et al. 2020

Adv Funct Materials

102

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Dynamic metal-organic frameworks (MOFs) represent a subgroup of frameworks featuring unique performance, as they are capable of adapting their pore size and/or the orientation of framework constituents in response to specific guest molecules such as gases or solutes and often outperform their rigid analogus in gas storage, sensing, or separation. In this review, the authors focus on recent methodical developments of advanced in situ diffraction and spectroscopic techniques for comprehensive characterization of porous frameworks. Examples for advanced instrumentation are highlighted for in situ nuclear magnetic resonance, electron paramagnetic resonance, and optical spectroscopies as well as X-ray and neutron diffraction. Several examples of high-resolution transmission electron microscopy (HRTEM) on MOFs are shown because HRTEM is an emerging technique for the characterization of time-resolved structural dynamics in MOFs. These methods shed light on structural features and phase transitions of the host, its spin state, electronic structure, specific host-guest and guest-guest interactions, preferable adsorption sites, and bonding situation in the framework, focusing on the most prominent recent case studies. The synergistic development of novel in situ characterization methods and exploration of well-defined model framework systems are crucial to advance the understanding of dynamic processes in porous materials in future.

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“…Metal-organic frameworks (MOFs)/coordination polymers (CPs) and zeotypes are currently of great interest due to their potential use in a wide range of applications from gas storage to carbon capture materials [1][2][3][4] and catalysis [5,6] to semiconductors [7][8][9]. These can also demonstrate interesting properties in the field of molecular magnetism [10][11][12][13][14][15]. The general design principle for MOFs/CPs is to combine two building blocks: a node, which is often a metal center or polymetallic cluster, and an organic linker.…”

Section: Introductionmentioning

confidence: 99%

Varying the Dimensionality of Cu(II)-Based Coordination Polymers Through Solvent Influence

et al. 2020

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This work reports the synthesis and structure of a large porous zeotype network observed within compound (1) using {Cu2(piv)4} as the linking unit (piv = pivalate). The slow in situ formation of the hmt ligand (hexamethylenetetramine) appears to be key in generating a µ4-bridging mode of the hmt-node. Attempts to improve the low yield of compound (1) using different solvent layer diffusion methods resulted in the µ3-hmt complexes (2) and (3). Both compounds exhibit a 3D network of two intertwined chiral networks. Strong hydrogen bonding present in (3) leads to the formation of intertwined, DNA-like double-helix structures. The use of bulky solvents in the synthesis of compound (4) leads to the structure crystallizing solvent-free. The packing of (4) is dominated by energy minimization, which is achieved when the 1D-“cylinders” pack into the closest possible arrangement. This work highlights the potential for solvent controlled synthesis of extended copper-hmt systems.

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Direct Imaging of Isolated Single-Molecule Magnets in Metal–Organic Frameworks

Cited by 82 publications

References 43 publications

Cryo-EM Structures of Atomic Surfaces and Host-Guest Chemistry in Metal-Organic Frameworks

Cryo-EM Structures of Atomic Surfaces and Host-Guest Chemistry in Metal-Organic Frameworks

Unraveling Structure and Dynamics in Porous Frameworks via Advanced In Situ Characterization Techniques

Varying the Dimensionality of Cu(II)-Based Coordination Polymers Through Solvent Influence

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