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Chemical reactions coupling

At higher current densities, the primary electron transfer rate is usually no longer limiting instead, limitations arise tluough the slow transport of reactants from the solution to the electrode surface or, conversely, the slow transport of the product away from the electrode (diffusion overpotential) or tluough the inability of chemical reactions coupled to the electron transfer step to keep pace (reaction overpotential). [Pg.603]

Techniques for attaching such ruthenium electrocatalysts to the electrode surface, and thereby realizing some of the advantages of the modified electrode devices, have been developed.512-521 The electrocatalytic activity of these films have been evaluated and some preparative scale experiments performed. The modified electrodes are active and selective catalysts for oxidation of alcohols.5 6-521 However, the kinetics of the catalysis is markedly slower with films compared to bulk solution. This is a consequence of the slowness of the access to highest oxidation states of the complex and of the chemical reactions coupled with the electron transfer in films. In compensation, the stability of catalysts is dramatically improved in films, especially with complexes sensitive to bpy ligand loss like [Ru(bpy)2(0)2]2 + 51, 519 521... [Pg.499]

In the absence of chemical reactions coupled with the electron transfer steps, the injection, or removal, of a second electron into, or from, a molecule (Scheme 1.2) is usually more difficult, thermodynamically speaking, than the first (E > f°r reductions, < E° for oxidations). Equivalently, the... [Pg.62]

The Effect of Chemical Reactions Coupled to Electron Transfers... [Pg.67]

Commonly, in the description of chemical reactions coupled to electron transfer, the homogeneous chemical reaction is indicated by C and the heterogeneous electron transfer by E. The order of C with respect to E then follows the chronological order in which the two events occur. Furthermore, while Ox and Red indicate the electro active species, other non-electro active species which result from the coupled chemical complications are indicated by Y, Z, W, etc. [Pg.68]

Bott, A.W., Practical problems in voltammetry. 3 Reference electrodes for voltammetry . Current Separations, 14, 64-68 (1995) is an excellent first stop for the novice, as is Bott, A. W Characterization of chemical reactions coupled to electron-transfer reactions using cyclic voltammetry . Current Separations, 18, 9-16 (1999), which also introduces simulations. In addition, the article by Hitchman and Hill in Chemistry in Britain (see above) contains a low-level general introduction to cyclic voltammetry for analyses. [Pg.335]

The study of Li28 + DMF solutions [60] also allowed to characterize the electrochemical properties of polysulfides only redox couples of the type 8 /8 are involved. The chemical reactions coupled to charge transfers are classical dissociation and disproportionation equilibria no complex rearrangement reaction or transient species has been necessary. Redox potentials and charge-transfer coefficients of the redox couples involved in sulfur and polysulfide solutions are summarized in Table 2. [Pg.263]

The rate laws and hence the mechanisms of chemical reactions coupled to charge transfer can be deduced from LSV measurements. The measurements are most applicable under conditions where the charge transfer can be considered to be Nernstian and the homogeneous reactions are sufficiently rapid that dEv/d log v is a linear function, i.e. the process falls into the KP or purely kinetic zone. In the 1960s and 1970s, extensive... [Pg.174]

Quantitative studies using LSV and CV can be carried out for both heterogeneous charge transfer kinetics and the kinetics of homogeneous chemical reactions coupled to charge transfer at electrodes. These methods should continue to play a major role in the study of electron transfer reactions. [Pg.199]

Kinetics of homogeneous chemical reactions coupled to electrode reactions... [Pg.317]

Modern electrochemical methods provide the coordination chemist with a powerful means of studying chemical reactions coupled to electron transfer and exploiting such chemistry in electrosynthesis. In addition, the electrochemical generation of reactive metallo intermediates can provide routes for the activation of otherwise inert molecules, as in the reduction of N2 to ammonia,50 and for electrocatalyzing redox reactions, such as the reduction of C02 to formate and oxalate,51 the oxidation of NH3 to N02-,52 and the technologically important oxidation of water to 02 or its converse, the reduction of 02 to water.53 Electrochemical reactions involving coordination compounds and organometallic species have been extensively reviewed.54-60... [Pg.500]

This equation is strictly applicable after several cycles. The first voltammogram is not quite the same as the reproducible curve obtained after several cycles.) However, the ratio of peak currents can be significantly influenced by chemical reactions coupled to the electrode process. [Pg.90]

As a result, quantification of species can be realised in dermo-cosmetic creams with a calibration in the emulsion chemical reactions coupled to electrochemical phenomena were observed. [Pg.1028]

Chemical reactions coupled to the transfer of reactants or products across a phase boundary are ubiquitous in nature and in many kinds of chemical processes. Examples from nature include respiration, many transport processes across cell membranes and digestive processes. Important industrial and commercial examples include the following. [Pg.104]

First-Order Chemical Reactions Coupled to Charge Transfer Processes. 189... [Pg.133]

In single step voltammetry, the existence of chemical reactions coupled to the charge transfer can affect the half-wave potential Ey2 and the limiting current l. For an in-depth characterization of these processes, we will study them more extensively under planar diffusion and, then, under spherical diffusion and so their characteristic steady state current potential curves. These are applicable to any electrochemical technique as previously discussed (see Sect. 2.7). In order to distinguish the different behavior of catalytic, CE, and EC mechanisms (the ECE process will be analyzed later), the boundary conditions of the three processes will be given first in a comparative way to facilitate the understanding of their similarities and differences, and then they will be analyzed and solved one by one. The first-order catalytic mechanism will be described first, because its particular reaction scheme makes it easier to study. [Pg.191]


See other pages where Chemical reactions coupling is mentioned: [Pg.54]    [Pg.31]    [Pg.472]    [Pg.478]    [Pg.237]    [Pg.39]    [Pg.39]    [Pg.41]    [Pg.43]    [Pg.45]    [Pg.47]    [Pg.49]    [Pg.51]    [Pg.53]    [Pg.55]    [Pg.57]    [Pg.59]    [Pg.163]    [Pg.580]    [Pg.235]   
See also in sourсe #XX -- [ Pg.784 ]




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