Hydrogen adsorption in azolium and metalated N-heterocyclic carbene containing MOFs

Capon, Patrick K.; Burgun, Aléxandre; Coghlan, Campbell J.; Crees, Rachel S.; Doonan, Christian J.; Sumby, Christopher J.

doi:10.1039/c6ce01549b

Cited by 17 publications

(11 citation statements)

References 74 publications

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“…When considering the cost of homogeneous organometallic complexes, as well as the environmental issues related to their separation and recovery in industrial processes, the heterogenization of homogeneous NHC-metal catalysts is also of great interest. , Metal–organic frameworks (MOFs), with defined structures and isolated catalytic sites, , have been employed as carriers for the heterogenization of NHC-metal catalysts. − In addition, a number of examples of coordination polymers with pendant poly-NHC units have been described. , …”

Section: Potential Applications Of Poly-nhc Metal Assembliesmentioning

confidence: 99%

Preparation and Post-Assembly Modification of Metallosupramolecular Assemblies from Poly(N-Heterocyclic Carbene) Ligands

et al. 2018

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Although the coordination chemistry of N-heterocyclic carbenes (NHCs) with transition metals has been explored for half a century, only in the past ten years has the chemistry of metallosupramolecular assemblies based on poly-NHC ligands been studied more extensively. Remarkable discrete assemblies featuring poly-NHC ligands including two-dimensional metallacycles and three-dimensional metallaprisms/cages have since emerged. These assemblies are mostly obtained starting from various imidazolium or benzimidazolium salts. Driven by the increasing interest in new supramolecular architectures from carbon donor ligands, design, and construction of poly-NHC metal assemblies has become a rapidly growing area of research. The metal-carbene bond length is fixed to approximately 2.0 Å in linear NHC-M-NHC complexes. This allows the use of such complexes bearing olefin-substituted NHC ligands as templates for subsequent photochemical [2 + 2] cycloaddition reactions. The postassembly modification of such assemblies has been actively explored in recent years. In this review, we focus on the synthetic methods, characterization, structural features, and postassembly modifications of metallosupramolecular assemblies obtained from poly-NHC ligands.

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Section: Potential Applications Of Poly-nhc Metal Assembliesmentioning

confidence: 99%

Preparation and Post-Assembly Modification of Metallosupramolecular Assemblies from Poly(N-Heterocyclic Carbene) Ligands

et al. 2018

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“…The principal findings from these measurements are as follows. (1) In the VB HAXPES spectra, the intensity of peak 1 (the occupied d-DOS) was higher for bulk Rh than for Rh NPs. This indicates that the unoccupied d-DOS of Rh NPs may be more than that of bulk Rh.…”

Section: Discussionmentioning

confidence: 93%

“…The study of materials enabling the efficient storage and safe transport of fuel gases, particularly hydrogen gas, has mainly focused on areas such as metal-organic frameworks, [1][2][3] carbon materials, 4,5 and hydrogen-storage alloys. [6][7][8] Hydrogen-storage alloys are metallic materials that have a unique ability to store hydrogen compactly and safely as a consequence of the stability of their hydrides.…”

Section: Introductionmentioning

confidence: 99%

Size effects on rhodium nanoparticles related to hydrogen-storage capability

Song

Yang

Sakata

et al. 2018

Phys. Chem. Chem. Phys.

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To unveil the origin of the hydrogen-storage properties of rhodium nanoparticles (Rh NPs), we investigated the electronic and crystal structures of the Rh NPs using various synchrotron based X-ray techniques. Electronic structure studies revealed that the hydrogen-storage capability of Rh NPs could be attributed to their more unoccupied d-DOSs than that of the bulk near the Fermi level. Crystal structure studies indicated that lattice distortion and mean-square displacement increase while coordination number decreases with decreasing particle size and the hydrogen-absorption capability of Rh NPs improves to a greater extent with increased structural disorder in the local structure than with that in the mean structure. The smallest Rh NPs, having the largest structural disorder/increased vacancy spaces and the smallest coordination number, exhibited excellent hydrogen-storage capacity. Finally, from the bond-orientational order analysis, we confirmed that the localized disordering is distributed more over the surface part than the core part and hydrogen can be trapped on the surface part of Rh NPs which increases with a decrease in NP diameter.

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“…13 Sumby and coworkers reported five different onedimensional (1D) chained MOFs that consist of various metal ions (Mg, Mn, Co, Zn, and Cu) and a U-shaped imidazolium ligand. 14 Two distinct topologies were generated differing in the coordination geometry and coordination number of the metals: 1D porous undulating chains with a paddle-wheel cluster (Zn and Cu) and nonporous "polymeric caged" structures with a trimeric cluster (Mg, Mn, and Co).…”

mentioning

confidence: 99%

“…Herein, we report a new caged 1D polymer MOF (YMOF-Y) of previously unknown topology composed of U-shaped imidazolium linkers and yttrium metal ions with a high coordination number (8 and 10). 14 Cavities in the original YMOF-Y are occupied by Y 4 metal clusters; however, a porous structure could be generated by the postsynthetic leaching out the clusters using alkali metal solutions. To the best of our knowledge, this is the first example of a selective metal cluster removal from a preformed MOF.…”

mentioning

confidence: 99%

Microporosity Enhancement in a One‐Dimensional Imidazolium Caged Metal‐Organic Framework by Highly Selective Postsynthetic Removal of Inner Yttrium Clusters

Lee

Seo

et al. 2021

Bulletin Korean Chem Soc

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A one-dimensional (1D) metal-organic caged framework (YMOF-Y) was obtained via self-assembly of yttrium cations with a U-shape imidazolium based ligand and the structure was elucidated by single-crystal Xray diffraction analysis. The YMOF-Y has a unique 1D chain structure composed of octa-imidazolium based cages. Inside the cage, an inner Y 4 cluster connected to yttrium cations of the cage through formate anions is present. The microporosity and flexibility of YMOF-Y can be improved by an unprecedented postsynthetic removal of the Y 4 clusters from the cage by washing with alkali metal solutions. The removal of the Y 4 cluster is reflected in a significant change in the properties of the metal-organic framework (MOF), as confirmed by carbon dioxide sorption measurements and variable temperature powder X-ray diffraction analysis.

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Hydrogen adsorption in azolium and metalated N-heterocyclic carbene containing MOFs

Cited by 17 publications

References 74 publications

Preparation and Post-Assembly Modification of Metallosupramolecular Assemblies from Poly(N-Heterocyclic Carbene) Ligands

Preparation and Post-Assembly Modification of Metallosupramolecular Assemblies from Poly(N-Heterocyclic Carbene) Ligands

Size effects on rhodium nanoparticles related to hydrogen-storage capability

Microporosity Enhancement in a One‐Dimensional Imidazolium Caged Metal‐Organic Framework by Highly Selective Postsynthetic Removal of Inner Yttrium Clusters

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