Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1307976 | Inorganica Chimica Acta | 2016 | 11 Pages |
•The architecture of the triphenylphosphine propeller in transition metal complexes is controlled by weak CH/π interactions comparable to the archetypal T-shaped benzene dimer and not by steric-only interactions as claimed in the literature.•ortho-CH bonds bind to ipso- and ortho-carbon atoms of adjacent phenyl rings.•In the trans-[MCl2(PPh3)2] complexes it is the Cl/π interaction which determines the orientation of the PPh3 propeller within the molecule.
The architecture of the triphenylphosphine propeller in Cr-PPh3 complexes and in the compounds trans-[MCl2(PPh3)2], M = Ni, Pd, and Pt, is analyzed on the basis of a CSD search. The three phenyl rings interact with each other by formation of weak CH/π bonds comparable to the archetypal T-shaped benzene dimer. ortho-CH bonds from inside the propeller bind to ipso- and ortho-carbon atoms of adjacent phenyl rings. In the broad energy minimum A/B there is a discontinuity in the transition from A to B. Binding switches from inside to outside ortho-carbon atoms. ortho-CH bonds from outside the propeller establish similar weak bonds with unsaturated ligands (and the metal atom) which control the arrangement of the PPh3 propeller within the molecule. In the trans-[MCl2(PPh3)2] complexes it is the Cl/π interaction which determines the orientation of the PPh3 propeller in the molecule.
Graphical abstractThe architecture of the triphenylphosphine propeller in Cr-PPh3 complexes and trans-[MCl2(PPh3)2], M = Ni, Pd, and Pt, compounds is analyzed on the basis of a CSD search. The three phenyl rings interact with each other by formation of weak CH/π bonds. ortho-CH bonds bind to ipso- and ortho-carbon atoms of adjacent phenyl rings. In the trans-[MCl2(PPh3)2] complexes it is the Cl/π interaction which determines the orientation of the PPh3 propeller within the molecule.Figure optionsDownload full-size imageDownload as PowerPoint slide