Ligand-site exchange mechanism

Transmetalation, though, requires enhanced electrophilicity of the Pd. Additionally a free coordination site may be required, which may be freed by dissociation of either a neutral or an anionic ligand. The involvement of five-coordinate species and association-dissociation ligand-exchange mechanisms in the individual steps of Pd-catalyzed reactions also cannot be neglected (Scheme 3).384... 

NACs adsorb preferentially to the siloxane surface of the mineral. The adsorbed NACs on the siloxane site are oriented coplanar to the surface. There are two points of view on the adsorption mechanism the formation of electron donor-acceptor (EDA) complexes between basal oxygens of the siloxane surface and nitroaromatic compound and on the other side H-bonding of NACs to water ligands of exchangeable cations or direct coordination of N02 groups to such cations. The strength of adsorption depends on the structure of the mineral and the characteristics of compound (i.e., number, type and position of substituent) as well as on the type of exchangeable cation of the mineral. 

In the absence of a dissociative process, the remaining mechanistic options are only intramolecular nondissociative of the pseudorotation family. The nondissociative site-exchange reactions commonly discussed for octahedral complexes are the Ray-Dutt [10] and Bailar twist mechanisms [11], by which three ligands are rotated relative to the other three via a trigonal prism transition state. None of these processes effects a topomerization in one step. At least two consecutive such twists are necessary in order to bring about the observed topomerizations. However, with these mechanisms it would be difficult to rationalize the observation of two distinct barriers in 1-4. 

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