In:
European Journal of Inorganic Chemistry, Wiley, Vol. 2015, No. 30 ( 2015-10), p. 5053-5065
Abstract:
Complexes trans ‐ and cis ‐[Fe(κ 3 P , N , P ‐PNP)(CO)Cl 2 ] complexes bearing sterically demanding to small PNP ligands based on the 2,6‐diaminopyridine scaffold are synthesized. The aromatic pyridine ring and the phosphine PR 2 moieties are connected through NH, N ‐alkyl, or N ‐aryl linkers. For bulky PNP ligands, with the exception of the ligands with P t Bu 2 units, these complexes are obtained upon the treatment of [Fe(κ 3 P , N , P ‐PNP)Cl 2 ] with CO. With small PNP ligands, such complexes are not accessible directly owing to the formation of [Fe(κ 3 P , N , P ‐PNP)(κ 2 P , N ‐PNP)Cl]Cl. These complexes liberate the κ 2 ‐ P , N ‐bound PNP ligand in the presence of CO to yield [Fe(κ 3 P , N , P ‐PNP)(CO)Cl 2 ] in yields of less than 50 %. High yields are achieved by reacting FeCl 2 with PNP ligands under a CO atmosphere. For structural and reactivity comparisons, [Fe(κ 3 P , N , P ‐PNP‐Ph)(κ 2 P , N ‐PN‐Ph)Cl] + was prepared, and this complex does not react with CO. In contrast to the reactions in solution, in the solid state, complexes [Fe(κ 3 P , N , P ‐PNP)Cl 2 ] with NH linkers are also converted quantitatively into trans ‐ or cis ‐[Fe(κ 3 P , N , P ‐PNP)(CO)(Cl) 2 ] upon treatment with CO, as indicated by a color change and by IR spectroscopy monitoring. Those with N ‐alkyl and N ‐aryl linkers did not react with CO. To rationalize why most [Fe(κ 3 P , N , P ‐PNP)Cl 2 ] complexes react readily with CO but those with t Bu substituents do not, the additions of CO to [Fe(κ 3 P , N , P ‐PNP‐ i Pr)Cl 2 ] and [Fe(κ 3 P , N , P ‐PNP‐ t Bu)Cl 2 ] were investigated by DFT calculations.
Type of Medium:
Online Resource
ISSN:
1434-1948
,
1099-0682
DOI:
10.1002/ejic.v2015.30
DOI:
10.1002/ejic.201500646
Language:
English
Publisher:
Wiley
Publication Date:
2015
detail.hit.zdb_id:
1475009-0
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