Synthesis of Mesityl Oxide π-Complexes with Metals of Chromium Subgroup and with Iron. Theoretical and Experimental Investigation of the Ligand Dissociation Energy

Abstract: At the use of photochemical and thermochemical activation new p-complexes of chromium, molybdenum, and tungsten were prepared containing in the coordination sphere h 2 -and h 4 -molecules of 4-methyl-3-penten-2-one. Nonempirical methods were applied to calculation of the energy parameters of the coordinated molecules, and the factors governing the h 2 -and h 4 -coordination of the oxodiene system were established. A thermochemical study was performed on the 4-methyl-3-penten-2-one h 4 -coordination product wit… Show more

“…The ν(C=C) and βNH 2 vibration modes of the ligand merge and yield a single broad band in the metal complexes except for 2 where ν(C= C) is observed as distinct shoulder at 1542 cm -1 and βNH 2 mode as very strong peak at 1494 cm -1 . Shifting of these bands to lower wavenumbers in the metal complexes as compared to that of the free ligand dadb value supports coordination through nitrogen and oxygen atoms of the ligand in monometallic as well as in heterobimetallic complexes [8,17,18].…”

“…In metal complexes of dadb the asymmetric (C=O) stretching vibrational mode is observed in the range 1610 -1655 cm -1 either as medium intensity shoulder or distinct peak. Thus lowering of ν(C=O) frequency in the metal complexes is in favour of coordinated nature of carbonyl group [18] of the ligand. The ν(C=C) and βNH 2 vibration modes of the ligand merge and yield a single broad band in the metal complexes except for 2 where ν(C= C) is observed as distinct shoulder at 1542 cm -1 and βNH 2 mode as very strong peak at 1494 cm -1 .…”

Solid-state thermal degradation behaviour of 1-D coordination polymers of Ni(II) and Cu(II) bridged by conjugated ligand

“…The ν(C=C) and βNH 2 vibration modes of the ligand merge and yield a single broad band in the metal complexes except for 2 where ν(C= C) is observed as distinct shoulder at 1542 cm -1 and βNH 2 mode as very strong peak at 1494 cm -1 . Shifting of these bands to lower wavenumbers in the metal complexes as compared to that of the free ligand dadb value supports coordination through nitrogen and oxygen atoms of the ligand in monometallic as well as in heterobimetallic complexes [8,17,18].…”

“…In metal complexes of dadb the asymmetric (C=O) stretching vibrational mode is observed in the range 1610 -1655 cm -1 either as medium intensity shoulder or distinct peak. Thus lowering of ν(C=O) frequency in the metal complexes is in favour of coordinated nature of carbonyl group [18] of the ligand. The ν(C=C) and βNH 2 vibration modes of the ligand merge and yield a single broad band in the metal complexes except for 2 where ν(C= C) is observed as distinct shoulder at 1542 cm -1 and βNH 2 mode as very strong peak at 1494 cm -1 .…”

Solid-state thermal degradation behaviour of 1-D coordination polymers of Ni(II) and Cu(II) bridged by conjugated ligand

“…Although a large number of p-(1,3-diene) iron tricarbonyl complexes have been reported and their reactivity investigated [1], less is known of the corresponding heterodiene compounds. In such compounds, which may be regarded as derived from the basic butadiene unit by the replacement of one or more of the carbon atoms by the oxygen or nitrogen, the possibility arises that the lone pair of electrons of the heteroatom is involved with the metal-ligand bond [2][3][4][5].In this study we report the synthesis of two new Schiff bases derived from 2-aminopyridine, 3-aminopyridine and cinnamaldehyde.These compounds are potentially good ligands for iron carbonyl complexes.…”

Synthesis of 1-(2-aminopyridine)-4-phenyl-1-azabuta-1,3-diene and 1-(3-aminopyridine)-4-phenyl-1-azabuta-1,3-diene as heterodienes for iron carbonyl complexes

Cyclic and Non-Cyclic Pi Complexes of Molybdenum