Triphenylphosphine ligand with hydrogenation

There are many other homogeneous catalysts, involving several different transition metals. Vaska s catalyst (345) is one of the more important and it also reacts with hydrogen, converting the square planar catalyst to the octahedral 346.356 Reduction appears to involve replacement of the triphenylphosphine ligand with hydrogen or an alkene in a reversible process.3l2... 

In benzene solution one of the triphenylphosphine ligands in (131) is replaced by a solvent molecule to give intermediate (132). The latter can add a mole of deuterium leading to (133) or can equilibrate with (134) in the presence of an olefin. There is some evidence, however, that in the presence of alcohol and oxygen the dissociation step (131 -> 132) is inhibited and the displacement of the triphenylphosphine by the solvent in forming (133) occurs only in the presence of hydrogen (or deuterium). ... 

Based on the data listed in Table 20.1, a value of 0.42% P was calculated for an anchored catalyst having three triphenylphosphine ligands, 0.28% P with two phosphine groups and 0.14% with one triphenylphosphene. An analytical value of 0.37% P was found which indicates that all three triphenyl-phosphines (TPP) are present in the catalyst as depicted by 4 in Scheme 20.2. However, only 0.11% P was found in the catalyst sample taken after catalyst pre-hydrogenation indicating that only one TPP is present on the active entity. Because of steric constraints between the bulky TPP and the HP A, it would appear that the TPP should be in the axial position as in 5. A proposed reaction mechanism for the anchored Wilkinson based on that shown in Scheme 20.1 is shown in Scheme 20.2. 

This type of reverse set-up has been expanded to catalysts with phosphines containing crown ether substituents (Figure 8.1), with the crown ether acting as a built-in phase-transfer function [5], Using a catalyst with this phosphine, the hydrogenation of Li+, Na+, K+ and Cs+ cinnamates in water-benzene solvent mixtures was considerably faster than when the analogous catalyst was used with triphenylphosphine ligands. 

The turnover frequency was found to be greatest for the two fluorous ligands and the control ligand with the trimethylsilyl function was found to be less effective than triphenylphosphine. These fluorous derivatives of Wilkinson s catalyst were used to hydrogenate 1-octene in perfluoromethylcyclohexane (PP2). The reaction was carried out a number of times in order to evaluate the efficiency of the system in terms of recycling and reuse [16], It was found that as the number... 

With nickel(II) 2-ethylhexanoate and triethylaluminum, tetralin (59) is obtained by hydrogenation of naphthalene (55). Polycyclic aromatics, such as anthracene (57 equation 8), 9-methylanthracene and 9-trifluoroacetylanthracene, are partially hydrogenated to 1,2,3,4-tetrahydroanthracene derivatives by use of [Rh(DPPE)(arene)]+ in methanol and by ruthenium hydride complexes having triphenylphosphine ligands... 

---