Metallosupramolecular chemistry of novel chiralcloso-o-carboranylalcohol pyridine and quinoline ligands: syntheses, characterization, and properties of cobalt complexes
Metallosupramolecular chemistry of novel chiralcloso-o-carboranylalcohol pyridine and quinoline ligands: syntheses, characterization, and properties of cobalt complexes
The cobalt(II) complexes CoCl2(LOH)2 (LOH = 1-[R(hydroxy)methyl]-2-R?-1,2-dicarba-closo-dodecaborane (R? = H or Me; R = 2-pyridyl 3a or 4a, 3-pyridyl 3b or 4b, 4-pyridyl 3c or 4c, 2-quinolyl 3d or 4d, 4-quinolyl 3e or 4e)) and CoCl2(LOH)4 (5, R? = H; R = 4-pyridyl) were synthesized and characterized. Deprotonation of alcohol in 3a afforded the square-planar complex CoII(LO)2 (6) that oxidized slowly in solution and under air to give the cobaltacarborane complex CoIII{(?5-C2B9H10)(CHOH)(?1-NC5H4)}(?2-NC5H4COO) (7). Crystal structures for 3a, 3a·2MeOH, 3b, 3e, 4c, 4e, 5, 6, and 7 have been determined by X-ray diffraction (XRD). Molecular structures show octahedral (3a, 3a·2MeOH, 5), tetrahedral (3b, 3e, 4c, 4e), and square-planar (6) coordination around CoII centers, whereas 2-pyridyl and quinolyl ligands favor a bidentate N,O-coordination mode and 3- and 4-pyridyl and quinolyl ligands favor a monodentate N-coordination. The supramolecular structures are dominated by intermolecular O–H···Cl/O hydrogen bonds and ?–? interactions in the case of tetrahedral complexes. The magnetic properties of 3a–c were investigated in the temperature range 2–300 K by means of ?MT, which corroborated coordination numbers and geometries as well as provided information on the supramolecular interactions among neighboring molecules for all three compounds. Complex 3a shows solvent accessible channels running parallel to the hydrogen bonding network and is able to uptake methanol vapors to convert into 3a·2MeOH. The structure of 3a is related to that for 3a·2MeOH by rotation of complex molecules within the 1D O–H···Cl hydrogen bonding networks and insertion of methanol into it.
5720-5736
Di Salvo, Florencia
e6d3739a-5387-4003-af7d-97429c4c8bd2
Teixidor, Francesc
d24b81b5-5d82-42ca-bd30-fd9c73d0ee68
Viñas, Clara
636b5d2e-fefb-4e83-93df-9615eee8e771
Planas, José Giner
98b21b50-1c21-4265-bd3c-67afe28ef652
Light, Mark E.
cf57314e-6856-491b-a8d2-2dffc452e161
Hursthouse, Michael B.
57a2ddf9-b1b3-4f38-bfe9-ef2f526388da
Aliaga-Alcalde, Núria
61774136-f28e-40f7-918d-c3d9708350a2
7 November 2012
Di Salvo, Florencia
e6d3739a-5387-4003-af7d-97429c4c8bd2
Teixidor, Francesc
d24b81b5-5d82-42ca-bd30-fd9c73d0ee68
Viñas, Clara
636b5d2e-fefb-4e83-93df-9615eee8e771
Planas, José Giner
98b21b50-1c21-4265-bd3c-67afe28ef652
Light, Mark E.
cf57314e-6856-491b-a8d2-2dffc452e161
Hursthouse, Michael B.
57a2ddf9-b1b3-4f38-bfe9-ef2f526388da
Aliaga-Alcalde, Núria
61774136-f28e-40f7-918d-c3d9708350a2
Di Salvo, Florencia, Teixidor, Francesc, Viñas, Clara, Planas, José Giner, Light, Mark E., Hursthouse, Michael B. and Aliaga-Alcalde, Núria
(2012)
Metallosupramolecular chemistry of novel chiralcloso-o-carboranylalcohol pyridine and quinoline ligands: syntheses, characterization, and properties of cobalt complexes.
Crystal Growth & Design, 12 (11), .
(doi:10.1021/cg301249a).
Abstract
The cobalt(II) complexes CoCl2(LOH)2 (LOH = 1-[R(hydroxy)methyl]-2-R?-1,2-dicarba-closo-dodecaborane (R? = H or Me; R = 2-pyridyl 3a or 4a, 3-pyridyl 3b or 4b, 4-pyridyl 3c or 4c, 2-quinolyl 3d or 4d, 4-quinolyl 3e or 4e)) and CoCl2(LOH)4 (5, R? = H; R = 4-pyridyl) were synthesized and characterized. Deprotonation of alcohol in 3a afforded the square-planar complex CoII(LO)2 (6) that oxidized slowly in solution and under air to give the cobaltacarborane complex CoIII{(?5-C2B9H10)(CHOH)(?1-NC5H4)}(?2-NC5H4COO) (7). Crystal structures for 3a, 3a·2MeOH, 3b, 3e, 4c, 4e, 5, 6, and 7 have been determined by X-ray diffraction (XRD). Molecular structures show octahedral (3a, 3a·2MeOH, 5), tetrahedral (3b, 3e, 4c, 4e), and square-planar (6) coordination around CoII centers, whereas 2-pyridyl and quinolyl ligands favor a bidentate N,O-coordination mode and 3- and 4-pyridyl and quinolyl ligands favor a monodentate N-coordination. The supramolecular structures are dominated by intermolecular O–H···Cl/O hydrogen bonds and ?–? interactions in the case of tetrahedral complexes. The magnetic properties of 3a–c were investigated in the temperature range 2–300 K by means of ?MT, which corroborated coordination numbers and geometries as well as provided information on the supramolecular interactions among neighboring molecules for all three compounds. Complex 3a shows solvent accessible channels running parallel to the hydrogen bonding network and is able to uptake methanol vapors to convert into 3a·2MeOH. The structure of 3a is related to that for 3a·2MeOH by rotation of complex molecules within the 1D O–H···Cl hydrogen bonding networks and insertion of methanol into it.
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e-pub ahead of print date: 21 September 2012
Published date: 7 November 2012
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Local EPrints ID: 385748
URI: http://eprints.soton.ac.uk/id/eprint/385748
ISSN: 1528-7483
PURE UUID: ba15e755-ba0d-48f5-8b3a-bedff15a15af
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Date deposited: 21 Jan 2016 15:32
Last modified: 15 Mar 2024 03:01
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Author:
Florencia Di Salvo
Author:
Francesc Teixidor
Author:
Clara Viñas
Author:
José Giner Planas
Author:
Núria Aliaga-Alcalde
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