Your search keyword '"Jalil, M. Abdul"' showing total 3 results

1. Stereoretentive elimination and trans-olefination of the dicationic dipalladium moiety [Pd(sub 2)L(sub n)](super 2+) bound on 1,3,5-trienes

Author

Murahashi, Tetsuro, Nakashima, Hiromitsu, Nagal, Tomoki, Mino, Yukari, Okuno, Taketoshi, Jalil, M. Abdul, and Kurosawa, Hideo

Subjects

Palladium -- Chemical properties, Carbon compounds -- Chemical properties, Chemistry

Abstract

The stereoretentive nature of dinuclear elimination and transfer of [Pd(sub 2)L(sub n)](super 2+) moietes between 1,3,5-trienes was demonstrated. The observed highly stereoretentive dynamic behavior of Pd-Pd moietes on 1,3,5-trienes represents the pairwise behavior of a dinuclear metal moiety on the pi-plane of sp(super 2)-carbon framework.

Published

2006

2. Stereoretentive Elimination and Trans-olefination of the Dicationic Dipalladium Moiety [Pd2Ln]2+ Bound on 1,3,5-Trienes

Author

Murahashi, Tetsuro, primary, Nakashima, Hiromitsu, additional, Nagai, Tomoki, additional, Mino, Yukari, additional, Okuno, Taketoshi, additional, Jalil, M. Abdul, additional, and Kurosawa, Hideo, additional

Published

2006

3. Stereoretentive Elimination and Trans-olefination of the Dicationic Dipalladium Moiety [Pd2L2]2+ Bound on 1,3,5-Trienes.

Author

Murahashi, Tetsuro, Nakashima, Hiromitsu, Nagai, Tomoki, Mino, Yukari, Okuno, Taketoshi, Jalil, M. Abdul, and Kurosawa, Hideo

Subjects

*PALLADIUM compounds, *ALKENES, *METAL-metal bonds, *PALLADIUM, *ATOMS, *LIGANDS (Chemistry), *PHOSPHINE

Abstract

The reaction of [Pd2(CH3CN)6][BF4]2 (1) with 1,3,5-hexatriene, 1,6-diphenyl-1,3,5-hexatriene (DPHT), or 2,2,9,9-tetramethyl-3,5,7-decatriene (DBHT) afforded bi-η³-aIlyIdipaIladium complexes 3, 4, or 5. The reaction of 1 and DBHT proceeded in a stereospecific (syn) manner when the reaction was carried out in CD2Cl2 under aerobic conditions, while a mixture of two diastereomers was formed under N2 atmosphere. The two diastereomers (5-E,Z,E-antifacial and 5-E,E,E-antifacial) formed from DBHT were isolated, and the structure of 5-E,Z,E-antifacial, which was kinetically formed from the reaction of 1 and (E,E,F)-DBHT, was determined by X-ray diffraction analysis. Addition of phosphine ligands (PPh3 or dppm) to the dinuclear adduct 5-E,Z,E-antifacial or 5-E,E,E-antifacial in acetonitrile resulted in the stereospecific (syn) elimination of [Pd2(PPh3)2(CH3CN)4][BF4]2 (2) or [Pd2(dppm)2(CH3CN)2][BF4]2 (6). During the PPh3-induced dinuclear elimination, the phosphine adducts 7 that retain bi-η³-allyldipalladium structure were observed initially. The phosphine adduct generated from 5-E,E,E-antifacial was isolated and structurally characterized by X-ray diffraction analysis. The reaction of 1 and DPHT in CH2Cl2 afforded unique dipalladium sandwich compounds [Pd2(μ-η³:η³-DPHT)2][BF4]2 (8). Interconversion between the sandwich complexes and half-sandwich complexes occurred in a stereoretentive manner. The structure of the sandwich complex 8-E,Z,E formed from 4-E,E,E-antifacial and (E,Z,E)-DPHT was determined by X-ray diffraction analysis. Transfer of the dipalladium moiety [Pd2(CH3CN)4]2+ from DPHT ligand of 4-E,E,E-antifacial onto DBHT ligand proceeded in a stereoretentive manner. The observed stereoretentive dinuclear process is featured by the pairwise behavior of two palladium atoms sitting on the triene π-plane. In the dinuclear elimination, the two Pd atoms that are initially in the divalent state and bound on the opposite faces (antifacial) come to the synfacial positions to form a Pd-Pd bond prior to dissociation. These results represent the unique property of conjugated olefin as the multidentate Iigands for metal-metal moieties. [ABSTRACT FROM AUTHOR]

Published

2006