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Supporting coordination through hydrogen bonding in lanthanide complexes of 7-azaindole- N -oxide †

Wood, Oskar G.; Jones, Leanne; Hawes, Chris S.

Authors

Oskar G. Wood

Leanne Jones



Abstract

Ligands capable of simultaneous metal coordination and hydrogen bond donation provide useful structural features to enhance cooperativity and favour specific geometries within the coordination sphere. Here we present the first structurally characterised examples of coordination compounds containing protonated 7-azaindole-N-oxide HL, bearing a neutral oxo donor capable of terminal or bridging coordination modes adjacent to a convergent hydrogen bond donor. The ligand itself shows a strong tendency for dimeric assembly in the solid state, but is easily deprotonated to give the chelate complex [CuL2] 1. In the presence of lanthanide ions, however, four new complexes [Eu(NO3)3(HL)3] 2, [Gd(NO3)3(HL)3] 3, [Eu2(μ2-HL)2(HL)4Cl6] 4 and [YbCl3(HL)3][YbCl(HL)5OH2]2Cl 5 were prepared and crystallographically characterised. All four species show strong tendencies for hydrogen bonding from the ligand to impact their overall structures, including a C3 propellor-like macrocyclic motif in 2 and 3 and a combination of intramolecular N–H⋯Cl contacts, and intermolecular tridentate anion binding in 5. Solution studies including HRMS and phosphorescence emission spectroscopy reveal persistence of the europium complex 2 in solution, despite the multiple possible binding modes of this ligand, hinting at a degree of cooperativity in these systems. These results show the utility of hydrogen bonding within the coordination sphere for influencing structural outcomes, relevant to the construction of stable higher-order crystalline assemblies.

Citation

Wood, O. G., Jones, L., & Hawes, C. S. (in press). Supporting coordination through hydrogen bonding in lanthanide complexes of 7-azaindole- N -oxide †. CrystEngComm, 25(45), 6371-6378. https://doi.org/10.1039/d3ce00985h

Journal Article Type Article
Acceptance Date Oct 31, 2023
Online Publication Date Nov 1, 2023
Deposit Date Nov 14, 2023
Publicly Available Date Nov 14, 2023
Journal CrystEngComm
Electronic ISSN 1466-8033
Publisher Royal Society of Chemistry
Peer Reviewed Peer Reviewed
Volume 25
Issue 45
Pages 6371-6378
DOI https://doi.org/10.1039/d3ce00985h