Engaging the Terminal: Promoting Halogen Bonding Interactions with Uranyl Oxo Atoms

Carter, Korey P.; Kalaj, Mark; Surbella, Robert G.; Ducati, Lucas C.; Autschbach, Jochen; Cahill, Christopher L.

doi:10.1002/chem.201702744

Cited by 47 publications

(49 citation statements)

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“…[1][2][3][4][5][6][7][8][9][10][11] This approach is predicated upon the directed assembly of tectons into crystalline architectures via attractive, noncovalent synthons, and utilization within uranyl hybrid materials has necessitated the development of a hierarchy of acceptordonor pairing preferences based on a detailed knowledge of the relationship between intra-and intermolecular interactions. 12 Recently, our group has been investigating the potential for crystal engineering to support engagement of the nominally terminal uranyl oxo groups, [13][14][15][16][17] and here we continue these efforts, employing hydrogen and halogen bonding for assembly and then describing uranyl oxo atom behavior as a synthon acceptor site. Development of a hierarchy of uranyl acceptor-donor pairing preferences requires a metric for adjudicating interaction strengths, which can then be qualitatively applied to judging which synthon acceptor and donor sites are 'best'.…”

Section: Introductionmentioning

confidence: 95%

Probing hydrogen and halogen-oxo interactions in uranyl coordination polymers: a combined crystallographic and computational study

et al. 2018

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Section: Introductionmentioning

confidence: 95%

Probing hydrogen and halogen-oxo interactions in uranyl coordination polymers: a combined crystallographic and computational study

et al. 2018

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“…Although the range of polynuclear uranyl‐based architectures is very broad, which is perfectly highlighted in a recent review, most of them are built with polytopic ligands featuring diverse coordination sites and modes. Even in the case of monotopic ligands such as halogenated benzoic acids, which at first view have only one obvious metal binding site (the carboxylate group), while the halogen sites are usually considered terminal binding sites, a great effort has been done to discover that the halogen sites can serve as supramolecular synthons or even as sites for covalent bonding in actinide systems. On the other hand, there are rare examples of compounds of uranyl ions with anions of aliphatic monocarboxylic acids L , which are constructed of large heteronuclear clusters (Figure ).…”

Section: Introductionmentioning

confidence: 99%

Unusual Heteronuclear Uranyl Clusters with Aliphatic Monocarboxylate Ligands and Coordination Modes of Crotonate, Butyrate, and Valerate Ions

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Two compounds with unusual architectures of uranyl complexes were synthesized and then studied by single-crystal X-ray diffraction and FTIR spectroscopy. Compound Ba 2 [UO 2 (C 3 H 5 COO) 3 ] 4 ·2C 3 H 5 COOH·7H 2 O (I) is constructed of neutral hexanuclear clusters {Ba 2 [UO 2 (C 3 H 5 COO) 3 ] 4 -(C 3 H 5 COOH) 2 (H 2 O) 4 } containing crotonate ions. Compound Sr(H 2 O) 6 {Na[UO 2 (i-C 3 H 7 COO) 3 ] 3 } (II) is constructed of anionic tetranuclear clusters {Na[UO 2 (i-C 3 H 7 COO) 3 ] 3 } 2containing isobutyrate ions. These and other examples of heteronuclear clusters imply that the alkali and alkaline-earth metal atoms in these structures are not just charge-balancing ions, but truly [a]

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“…Moreover, electrostatic potential maps of selected uranyl tectons confirmed and quantified the importance of halogen polarizability on oxo atom engagement. Sigma hole energies were found to be negative for chlorine, small and positive for bromine, and a factor or ten greater in magnitude (than bromine) for the more polarizable iodine atoms (Figure ), whereas sigma hole energies for oxo atoms stayed nearly constant, independent of chelating N‐donor and amount of equatorial electron donation …”

Section: Cap‐and‐link Approach To Assembly Via Ncismentioning

confidence: 99%

“… Representative UO 2 ‐2,5‐dihalobenzoic‐Cl‐terpy complexes and corresponding calculated electrostatic potentials, adapted from ref. (K. P. Carter, M. Kalaj, R. G. Surbella III, L. C. Ducati, J. Autschbach, C. L. Cahill, Chem. Eur.…”

Section: Cap‐and‐link Approach To Assembly Via Ncismentioning

confidence: 99%

“…Sigma hole energies were found to be negative for chlorine, small and positive for bromine, and af actor or ten greater in magnitude (than bromine) for the more polarizable iodine atoms ( Figure 12), whereas sigma hole energies for oxo atoms stayed nearly constant, independento fc helating N-donor and amount of equatorial electron donation. [30] More recently,t he 'cap-and-link' strategy has been used to probe the extent to which electron donationf rom chelating Ndonorl igandsc an foster oxo atom engagement in halogen bondingi nteractions. Using two sets of isomorphous complexes, differing only in halogena tom at the periphery of the tectons, means of assembly were evaluated and results indicated that inclusiono fm ore electron donating N-donorl igand (i.e.…”

Section: Cap-and-link Approach To Assembly Via Ncismentioning

confidence: 99%

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Restricted Speciation and Supramolecular Assembly in the 5f Block

Carter

Surbella

Kalaj

et al. 2018

Chemistry A European J

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Hybrid materials bearing elements from the 5f block display a rich diversity of coordination geometries, connectivities, and assembly motifs. Exemplary in this regard have been uranyl coordination polymers, which feature a wide range of secondary building units resulting from hydrolysis and oligomerization of the [UO ] cation. An alternative approach to novel materials, however, suppresses hydrolysis and relies on non-covalent interactions (e.g. hydrogen or halogen bonding) to direct assembly of a more limited suite of species or building units. This may be achieved through the use of high-anion media to promote singular actinyl anions that are assembled with organic cations, or by way of functionalized chelating ligands that produce complexes suited for assembly through peripheral donor/acceptor sites. Presented in this Concept article is therefore an overview of our efforts in this arena. We highlight examples of each approach, share our thoughts regarding delineation of assembly criteria, and discuss the opportunities for exploring structure-property relationships in these systems.

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Engaging the Terminal: Promoting Halogen Bonding Interactions with Uranyl Oxo Atoms

Cited by 47 publications

References 48 publications

Probing hydrogen and halogen-oxo interactions in uranyl coordination polymers: a combined crystallographic and computational study

Probing hydrogen and halogen-oxo interactions in uranyl coordination polymers: a combined crystallographic and computational study

Unusual Heteronuclear Uranyl Clusters with Aliphatic Monocarboxylate Ligands and Coordination Modes of Crotonate, Butyrate, and Valerate Ions

Restricted Speciation and Supramolecular Assembly in the 5f Block

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