Martínez-Prieto Luis M, Ávila Elena, Palma Pilar, Álvarez Eleuterio, Cámpora Juan
Instituto de Investigaciones Químicas, CSIC, Universidad de Sevilla c/Américo Vespucio, 49, 41092 Sevilla (Spain).
Chemistry. 2015 Jun 26;21(27):9833-49. doi: 10.1002/chem.201500652. Epub 2015 May 28.
Nickel and palladium methoxides [((iPr)PCP)M-OMe], which contain the (iPr)PCP pincer ligand, decompose upon heating to give products of different kinds. The palladium derivative cleanly gives the dimeric Pd(0) complex [Pd(μ-(iPr)PCHP)]2 ((iPr)PCHP = 2,6-bis(diisopropylphosphinomethyl)phenyl) and formaldehyde. In contrast, decomposition of [((iPr)PCP)Ni-OMe] affords polynuclear carbonyl phosphine complexes. Both decomposition processes are initiated by β-hydrogen elimination (BHE), but the resulting [((iPr)PCP)M-H] hydrides undergo divergent reaction sequences that ultimately lead to the irreversible breakdown of the pincer units. Whereas the Pd hydride spontaneously experiences reductive C-H coupling, the decay of its Ni analogue is brought about by its reaction with formaldehyde released in the BHE step. Kinetic measurements showed that the BHE reaction is reversible and less favourable for Ni than for Pd for both kinetic and thermodynamic reasons. DFT calculations confirmed the main conclusions of the kinetic studies and provided further insight into the mechanisms of the decomposition reactions.
含有(iPr)PCP钳形配体的甲醇镍和甲醇钯[((iPr)PCP)M-OMe]在加热时会分解,生成不同类型的产物。钯衍生物能直接生成二聚体Pd(0)配合物[Pd(μ-(iPr)PCHP)]2((iPr)PCHP = 2,6-双(二异丙基膦基甲基)苯基)和甲醛。相比之下,[((iPr)PCP)Ni-OMe]的分解则得到多核羰基膦配合物。这两种分解过程均由β-氢消除(BHE)引发,但生成的[((iPr)PCP)M-H]氢化物会经历不同的反应序列,最终导致钳形单元的不可逆分解。钯氢化物会自发地发生还原C-H偶联,而镍类似物的分解则是由其与BHE步骤中释放的甲醛反应所致。动力学测量表明,由于动力学和热力学原因,BHE反应是可逆的,且对镍的有利程度低于钯。密度泛函理论计算证实了动力学研究的主要结论,并进一步深入了解了分解反应的机理。
