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PARASHIFT Probes:: solution NMR and X-ray structural studies of macrocyclic ytterbium and yttrium complexes

PARASHIFT Probes:: solution NMR and X-ray structural studies of macrocyclic ytterbium and yttrium complexes
PARASHIFT Probes:: solution NMR and X-ray structural studies of macrocyclic ytterbium and yttrium complexes
Ytterbium and yttrium complexes of octadentate ligands based on 1,4,7,10-tetraazacyclododecane with a coordinated pyridyl group and either tricarboxylate (L1) or triphosphinate (L2) donors form twisted-square-antiprismatic structures. The former crystallizes in the centrosymmetric group P21/c, with the two molecules related by an inversion center, whereas the latter was found as an unusual kryptoracemate in the chiral space group P21. Pure shift NMR and EXSY spectroscopy allowed the dynamic exchange between the (RRR)-Δ-(δδδδ) and (RRR)-Λ-(λλλλ) TSAP diastereomers of the [Y.L2] complex to be detected. The rate-limiting step in the exchange between Δ and Λ isomers involves cooperative ligand arm rotation, which is much faster for [Ln.L1] than for [Ln.L2]. Detailed analysis of NOESY, COSY, HSQC, and HMBC spectra confirms that the major conformer in solution is (RRR)-Λ-(λλλλ), consistent with crystal structure analysis and DFT calculations. The magnetic susceptibility tensors for [Yb.L1] and [Yb.L2], obtained from a full pseudocontact chemical shift analysis, are very different, in agreement with a CASSCF calculation. The remarkably different pseudocontact shift behavior is explained by the change in the orientation of the pseudocontact shift field, as defined by the Euler angles of the susceptibility tensor.
0020-1669
4028-4038
Mason, Kevin
b44d68df-9067-4812-a742-ff17df162f4b
Rogers, Nicola J.
98365fc2-d36f-4d4c-80bb-9c89f499230e
Suturina, Elizaveta
24dd007d-949a-4852-99d1-ea42b00103ef
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Aguilar, Juan A.
1436760f-c7d6-4d14-820e-7cf9b6164b55
Batsanov, Andrei S.
28a0a20c-fa2c-4776-864e-286c7834030c
Yufit, Dimitry S.
a792d1e4-9a55-425b-a4ae-e2192a8b062e
Parker, David
31bfb567-907a-4490-af57-411089ae0e73
Mason, Kevin
b44d68df-9067-4812-a742-ff17df162f4b
Rogers, Nicola J.
98365fc2-d36f-4d4c-80bb-9c89f499230e
Suturina, Elizaveta
24dd007d-949a-4852-99d1-ea42b00103ef
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Aguilar, Juan A.
1436760f-c7d6-4d14-820e-7cf9b6164b55
Batsanov, Andrei S.
28a0a20c-fa2c-4776-864e-286c7834030c
Yufit, Dimitry S.
a792d1e4-9a55-425b-a4ae-e2192a8b062e
Parker, David
31bfb567-907a-4490-af57-411089ae0e73

Mason, Kevin, Rogers, Nicola J., Suturina, Elizaveta, Kuprov, Ilya, Aguilar, Juan A., Batsanov, Andrei S., Yufit, Dimitry S. and Parker, David (2017) PARASHIFT Probes:: solution NMR and X-ray structural studies of macrocyclic ytterbium and yttrium complexes. Inorganic Chemistry, 56 (7), 4028-4038. (doi:10.1021/acs.inorgchem.6b02291).

Record type: Article

Abstract

Ytterbium and yttrium complexes of octadentate ligands based on 1,4,7,10-tetraazacyclododecane with a coordinated pyridyl group and either tricarboxylate (L1) or triphosphinate (L2) donors form twisted-square-antiprismatic structures. The former crystallizes in the centrosymmetric group P21/c, with the two molecules related by an inversion center, whereas the latter was found as an unusual kryptoracemate in the chiral space group P21. Pure shift NMR and EXSY spectroscopy allowed the dynamic exchange between the (RRR)-Δ-(δδδδ) and (RRR)-Λ-(λλλλ) TSAP diastereomers of the [Y.L2] complex to be detected. The rate-limiting step in the exchange between Δ and Λ isomers involves cooperative ligand arm rotation, which is much faster for [Ln.L1] than for [Ln.L2]. Detailed analysis of NOESY, COSY, HSQC, and HMBC spectra confirms that the major conformer in solution is (RRR)-Λ-(λλλλ), consistent with crystal structure analysis and DFT calculations. The magnetic susceptibility tensors for [Yb.L1] and [Yb.L2], obtained from a full pseudocontact chemical shift analysis, are very different, in agreement with a CASSCF calculation. The remarkably different pseudocontact shift behavior is explained by the change in the orientation of the pseudocontact shift field, as defined by the Euler angles of the susceptibility tensor.

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Accepted/In Press date: 15 March 2017
e-pub ahead of print date: 15 March 2017
Published date: 3 April 2017
Organisations: Computational Systems Chemistry, Magnetic Resonance

Identifiers

Local EPrints ID: 407464
URI: http://eprints.soton.ac.uk/id/eprint/407464
DOI: doi:10.1021/acs.inorgchem.6b02291
ISSN: 0020-1669
PURE UUID: 95afe5dc-7d29-40e8-85ae-78b25dd7d54e
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682

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Date deposited: 12 Apr 2017 01:04
Last modified: 16 Mar 2024 05:13

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Contributors

Author: Kevin Mason
Author: Nicola J. Rogers
Author: Elizaveta Suturina
Author: Ilya Kuprov ORCID iD
Author: Juan A. Aguilar
Author: Andrei S. Batsanov
Author: Dimitry S. Yufit
Author: David Parker

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