Mechanism of complexation

The coordination compound 76 was stable enough for isolation and recording of its NMR spectra, from which a rigid silacyclopropane structure could be deduced. The mechanism of complex formation has also been investigated in detail by matrix techniques. 

Figure 2. Mechanism of complex formation of diols by borates...

The chapter on kinetics and mechanisms of complex formation and ligand substitution at alkali metal and alkaline earth cations elsewhere in this volume provides context and complementary discussion of these processes in relation to calcium. 

He, X. and Rosenfeld, M. G. Mechanisms of complex transcriptional regulation implications for brain development. Neuron 7 183-196,1991. 

Ni2+ was very popular in the early days of the investigation of mechanisms of complex formation, since the time-scale for its reactions with simple ligands was so convenient for the then recently developed stopped-flow technique. However, interest has now moved on to other first-row cations, especially to Cu2+. A review of the kinetics and mechanisms of formation of tetraazamacrocyclic complexes concentrates on Ni2+ and Cu2+, and their reactions with cyclam and similar ligands (267). The tetra(4 -sulfonatophenyl)porphyrin complexes of Ni2+ and of Cu2+ react immeasurably slowly with cyanide, but their IV-methyl derivatives do react, albeit extremely slowly. The relevant time scales are hours for removal of Ni2+, months for the removal of Cu2+, by 10-4 M cyanide at pH 7.4 (268). 

THE REACTION MECHANISM OF COMPLEX [P2N21 ZrOi-Ti2-N2)Zr[P2N2], Al, WITH MOLECULAR HYDROGEN. 

Muller, J. M., and Gault, F. G., Presented at the Fourth Int. Congr. Catal., Moscow, 1968. Symposium Kinetics and Mechanism of Complex Catalytic Reactions," Paper 15. 

The relaxation approach has played an important role in our understanding of the mechanisms of complex formation in solution (Chap. 4) 39,i4o -pjjg qj computer programs has now eased the study of multiple equilibria. For example, four separate relaxation effects with t s ranging from 100 xs to 35 ms are observed in a temperature-jump study of the reactions of Ni with flavin adenine dinucleotide (fad) (Eqn. (8.121)). The complex relaxation... 

In order to determine the mechanism of complex-formation, however, kinetic methods must be used. Consider one host-two guests complex-ation. The two possible mechanisms are dimerization of the guest outside the cyclodextrin cavity followed by inclusion, and dimerization within the cyclodextrin cavity. Equilibrium measurements alone cannot distinguish between these two possibilities. The same is the case for 2 2 complex-formation, where a larger number of possible mechanisms exist. 

It must also be recognized that the success of any detailed chemical kinetic mechanism in fitting available experimental data does not guarantee the accuracy of the mechanism. Our knowledge of the detailed chemical kinetic mechanism of complex reactions is always, in principle, incomplete. Consequently, mechanisms must continually be revised as new, more reliable information — both experimental and theoretical—becomes available. In fact, it is this aspect of detailed chemical kinetic modeling that renders the subject rich, full of surprises and opportunities for creative work. 

The kinetics of formation of nitroprusside from [Fe VCN)5(H20)] indicate a mechanism of complex formation in which outer-sphere reduction to [Fe (CN)5(Fl20)] precedes substitution."" Reduction of the dimeric pentacyanoferrate(III) anion [Fe2(CI io]" by thiourea is a multi-stage process the first step is one-electron transfer to give [Fe2(CN)io], which dissociates to give [Fe(CN)5(tu)]2- and [Fe(CN)5(H20)] -.""... 

Kinetics and mechanisms of complex formation have been reviewed, with particular attention to the inherent Fe +aq + L vs. FeOH +aq + HL proton ambiguity. Table 11 contains a selection of rate constants and activation volumes for complex formation reactions from Fe " "aq and from FeOH +aq, illustrating the mechanistic difference between 4 for the former and 4 for the latter. Further kinetic details and discussion may be obtained from earlier publications and from those on reaction with azide, with cysteine, " with octane-and nonane-2,4-diones, with 2-acetylcyclopentanone, with fulvic acid, and with acethydroxamate and with desferrioxamine. For the last two systems the various component forward and reverse reactions were studied, with values given for k and K A/7 and A5, A/7° and A5 ° AF and AF°. Activation volumes are reported and consequences of the proton ambiguity discussed in relation to the reaction with azide. For the reactions of FeOH " aq with the salicylate and oxalate complexes d5-[Co(en)2(NH3)(sal)] ", [Co(tetraen)(sal)] " (tetraen = tetraethylenepentamine), and [Co(NH3)5(C204H)] both formation and dissociation are retarded in anionic micelles. 

Equilibrium constants for formation of iron(III) complexes of several oxoanions, of phosphorus, arsenic, sulfur, and selenium, have been reported. The kinetics and mechanism of complex formation in the iron(III)-phosphate system in the presence of a large excess of iron(III) involve the formation of a tetranuclear complex, proposed to be [Fc4(P04)(0H)2(H20)i6]. The high stability of iron(III)-phosphate complexes has prompted suggestions that iron-containing mixed hydroxide or hydroxy-carbonate formulations be tested for treatment of hyperphosphatemia. " ... 

The electrochemical properties of Cd(II) complexes with inorganic ligand presented in early papers were discussed by Hampson and Latham [72]. Later, electrochemical investigations of cadmium complexes were oriented on the mechanism of complex formation, determination of stoichiometry and stability constants, mechanisms of reduction on the electrodes, and evaluation of kinetic parameters of these processes. The influence of ligands and solvents on stability and kinetic parameters of electroreduction was also studied. 

The trans effect illustrates the importance of studying the mechanisms of complex substitution reactions. Before continuing with a discussion of mechanisms, the distinction between the thermodynamic terms stable and unstable and the kinetic terms labile and inert should be clarified. Consider the following cyano complexes [Ni(CN)4]2-, [Mn(CN)6]3-, and [Cr(CN)6]3-. All of these complexes are extremely stable from a thermodynamic point of view is yet kinetically they are quite different. If the rate of exchange of radiocarbon labeled cyanide is measured, we find that despite the thermodynamic stability, one of these complexes exchanges cyanide ligands very rapidly (is labile), a second is moderately labile, and only [Cr(CN)6]3 can be considered to be inert ... 

Vetter has extensively used the electrochemical reaction order to establish the mechanism of complex electrode reactions [7]. For instance, for the overall electrode reaction... 

It will be apparent at this point that the synthesis of some of the Fe4C clusters has enjoyed its share of serendipity (in the tradition of cluster chemistry). In two instances, however, rational mechanisms of complex reactions have been elucidated by the isolation and characterization of... 

Bielinska, A.U., Kukowska-Latallo, J.F. and Baker, Jr., J.R. (1997) The interaction of plasmid DNA with polyamidoamine dendrimers mechanism of complex formation and analysis of alterations induced in nuclease sensitivity and transcriptional activity of the complexed DNA. Biochim. Biophys. Acta., 1353,180-190. 

SCHEME 2. Quenching mechanism of complex [CuAu(C6F5)2(MeCN)( a2-C4H4N2)] in donor solvents. 

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