Kinetics and mechanisms of the axial ligand substitution reactions of platinum(III) binuclear complexes with halide ions

Satoshi Iwatsuki, Koji Ishihara, Kazuko Matsumoto

Research output: Contribution to journalReview article

8 Citations (Scopus)

Abstract

The axial water ligand substitution reaction on the head-to-head (HH) and head-to-tail (HT) amidato-bridged cis-diammineplatinum(III) binuclear complexes, HH- and HT-[Pt2(NH3)4(μ-amidato)2 (OH2)2]4+ (amidato=α-pyridonato, α-pyrrolidonato, or pivalamidato), with halide ions (X-=Cl-, Br-) in acidic aqueous solution reveals a consecutive 2-step kinetics under the pseudo first-order conditions of a large excess concentration of halide ion relative to that of the complex (CX- ≫ CPt), corresponding to formation of the monohalo (step 1) and the dihalo complexes (step 2). The first substitution step of all the HH and HT diaqua dimers consists of two parallel reaction pathways: one is the simple substituion path of one of the coordinated aqua ligands with X-, and the other is the replacement in the aquahydroxo complex which is the conjugate base of the diaqua dimer. In step 2, there are three reaction pathway patterns: the direct substitution path, the path via a coordinatively unsaturated intermediate, and the unusual path of OH- replacement. Step 2 proceeds via either one or two paths of the three depending on the nature of the halide ion as well as the bridging ligand. On the other hand, the substitution reaction of the hydrogenphosphato-bridged lantern-type complex, [Pt2(μ-HPO4)4(OH2) 2]2- proceeds in 1-step at CX- ≫ CPt, in which the first aqua ligand substitution to form the monohalo species is rate-determining and the monohalo species is in rapid equilibrium with the dihalo complex. The rate-determining step consists of parallel pathways similar to step 1 in the amidato-bridged complex systems.

Original languageEnglish
Pages (from-to)411-424
Number of pages14
JournalScience and Technology of Advanced Materials
Volume7
Issue number5
DOIs
Publication statusPublished - 2006 Jul 1

Keywords

  • Equilibrium
  • Kinetics
  • Ligand substitution
  • Mechanism
  • Platinum(III)

ASJC Scopus subject areas

  • Materials Science(all)

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