Model reaction study

Model Reactions Study over Pt and Pt-MoO Catalysts In order to... 

Our activity and selectivity results are in good agreement with their findings. Our model reactions study showed that the presence of Mo in a... 

Besides the isolation and characterisation of several catalytically relevant intermediates, model reaction studies, generally based on variable-temperature NMR experiments in CD2CI2, with isolated Pd" complexes have provided valuable kinetic and thermodynamic information on the mechanism of the alternating ethene/CO copolymerisation. 

The chapter by C. J. Swan and D. L. Trimm, which also emphasizes the effect on catalytic activity of the precise form of a metal complex, shows too that, depending on the metal with which it is associated, the same ligand can act either as a catalyst or inhibitor. The model reaction studied was the liquid-phase oxidation of ethanethiol in alkaline solution, catalyzed by various metal complexes. The rate-determining step appears to be the transfer of electrons from the thiyl anion to the metal cation, and it is shown that some kind of coordination between the metal and the thiol must occur as a prerequisite to the electron transfer reaction (8, 9). In systems where thiyl entities replace the original ligands, quantitative yields of disulfide are obtained. Where no such displacement occurs, however, the oxidation rates vary widely for different metal complexes, and the reaction results in the production not only of disulfide but also of overoxidation and hydrolysis products of the disulfide. 

Examples of different cross-flow reactors are shown in Table 1, where different characteristics such as separating wail material, type of transport through the wall, and model reactions studied arc given. As seen from Table 1 the reactors may be divided into five groups with respect to their fields of application ... 

Spectroscopic information, suf orted by the results of a non-polymeric model reaction study indicates the prepolymers to possess a predominantly open-chain structure of... 

Botre et al. (1981), using the B-Z reaction as the model reaction, studied energy... 

There have been some extraordinarily effective contributions of model-reaction studies, particularly by Klinman and Mure [2], to the understanding of quinone-cofactor chemistry, but there seem to have been no uses of this approach with respect to hydride-transfer reactions. Readers who wish to acquaint themselves with the current situation should consult Davidson s volume of 1993 [64], Klinman and... 

Further details on the dealumination procedures, the characterization techniques and the model reaction studies can be found in ref. (23,24). 

A model for a similar membrane reactor, shown schematically on the top of Figure 5.15, has been developed by Harold et al [5.54] to simulate reactant and products concentrations in parallel-consecutive reaction networks. The membrane reactor compartments on either side of the membrane were assumed to be completely stirred with no pressure gradient across the membrane. The model reaction studied is of relevance to hydrocarbon partial oxidation reactions, where the intermediate oxidation product can further react with oxygen to produce the undesirable total combustion products. Here the goal is to maximize the yield of the intermediate desired product. The calculation results... 

Of possible biological interest is the report, based on a model reaction study with hydroxocobalamine, that the coenzyme-B, 2-dependent methyl-malonyl-CoA mutase reaction could involve intramolecular addition of a primary radical to a thioester group. The cyclopropyloxy radical so formed in a Cy3/Cy4 case would open to the carbethoxy-substituted and hence stabilized radical to give the rearranged product. ... 

Although it has not yet been possible to study the synthesis of proteins in purified enzyme systems, a considerable number of model reactions which involve the formation of peptide or amide linkages have been investigated. These include the synthesis of glutamine, hippuric acid, acetylated amines, glutathione, and urea. It is of significance that every one of these model reactions, studied in isolated enzyme systems, has been shown to require ATP. In addition, two of these reactions, the formation of hippuric acid and the acetylation of amines, have been shown to require coenzyme A. 

Attempts at polymerizations and model reactions of 4,5-bis(4 -fluorophenyl)-2-[4 -trifluormethyl)phenyl]oxazole, 14, which has 8 = -110.54 and -112.27 were repeatedly p ormed. Reaction conditions similar to those employed in the synthesis of the 1,3,4-triazoles and 2,3-bis(4-fluorophenyl)quinoxalines were employed (NMP or DMPU >180 °C). No desired products were obtained. Model reaction studies revealed... 

According to Kramers model, for flat barrier tops associated with predominantly small barriers, the transition from the low- to the high-damping regime is expected to occur in low-density fluids. This expectation is home out by an extensively studied model reaction, the photoisomerization of tran.s-stilbene and similar compounds [70, 71] involving a small energy barrier in the first excited singlet state whose decay after photoexcitation is directly related to the rate coefficient of tran.s-c/.s-photoisomerization and can be conveniently measured by ultrafast laser spectroscopic teclmiques. 

How are fiindamental aspects of surface reactions studied The surface science approach uses a simplified system to model the more complicated real-world systems. At the heart of this simplified system is the use of well defined surfaces, typically in the fonn of oriented single crystals. A thorough description of these surfaces should include composition, electronic structure and geometric structure measurements, as well as an evaluation of reactivity towards different adsorbates. Furthemiore, the system should be constructed such that it can be made increasingly more complex to more closely mimic macroscopic systems. However, relating surface science results to the corresponding real-world problems often proves to be a stumbling block because of the sheer complexity of these real-world systems. 

Photodissociation of a linear triatomic such as [85, 86] or Hgl2 [8] to produce a vibrationally excited diatomic, or cage recombination of a photodissociated diatomic such as I2 [78, 81] are classic model simple systems for reaction dynamics. Here we discuss tire Hgl2—>HgI + I reaction studied by Hochstrasser and co-workers [87, 88 and 89]. 

Model Reactions. Independent measurements of interfacial areas are difficult to obtain in Hquid—gas, Hquid—Hquid, and Hquid—soHd—gas systems. Correlations developed from studies of nonreacting systems maybe satisfactory. Comparisons of reaction rates in reactors of known small interfacial areas, such as falling-film reactors, with the reaction rates in reactors of large but undefined areas can provide an effective measure of such surface areas. Another method is substitution of a model reaction whose kinetics are well estabUshed and where the physical and chemical properties of reactants are similar and limiting mechanisms are comparable. The main advantage of employing a model reaction is the use of easily processed reactants, less severe operating conditions, and simpler equipment. 

This study is particularly noteworthy in the evolution of QM-MM studies of enzyme reactions in that a number of technical features have enhanced the accuracy of the technique. First, the authors explicitly optimized the semiempirical parameters for this specific reaction based on extensive studies of model reactions. This approach had also been used with considerable success in QM-MM simultation of the proton transfer between methanol and imidazole in solution. 

The isocyanurate reaction occurs when three equivalents of isocyanate react to form a six-membered ring, as shown in the fifth item of Fig. 1. Isocyanurate linkages are usually more stable than urethane linkages. Model compound studies show no degradation of the trimer of phenyl isocyanate below 270°C [10,11]. Catalysts are usually needed to form the isocyanurate bond. Alkali metals of carboxylic acids, such as potassium acetate, various quaternary ammonium salts, and even potassium or sodium hydroxide, are most commonly used as catalysts for the isocyanurate reaction. However, many others will work as well [12]. 

Another method for studying solvent effects is the extrathermodynamic approach that we described in Chapter 7 for the study of structure-reactivity relationships. For example, we might seek a correlation between og(,kA/l ) for a reaction A carried out in a series of solvents and log(/ R/A R) for a reference or model reaction carried out in the same series of solvents. A linear plot of og(k/iJk ) against log(/ R/ linear free energy relationship (LFER). Such plots have in fact been made. As with structure-reactivity relationships, these solvent-reactivity relationships can be useful to us, but they have limitations. 

The mechanism of the lysozyme reaction is shown in Figures 16.36 and 16.37. Studies using O-enriched water showed that the Ci—O bond is cleaved on the substrate between the D and E sites. Hydrolysis under these conditions incorporates into the Ci position of the sugar at the D site, not into the oxygen at C4 at the E site (Figure 16.36). Model building studies place the cleaved bond approximately between protein residues Glu and Asp. Glu is in a nonpolar or hydrophobic region of the protein, whereas Asp is located in a much more polar environment. Glu is protonated, but Asp is ionized... 

MO calculations were performed rarely for thiopyrans except for an MNDO study of 2 [84ZN(A)267], Charge distribution and orbital interaction concepts were explored in an interpretation of model reactions of thiopyrylium ions with azides giving 68 and the corresponding 3,5-unsub-stituted thiopyrans (84T3549) as well as for the equilibria between 1 and 2 or 167 and 168, respectively (92JOC4431). 

The influence of electronegative additives on the CO hydrogenation reaction corresponds mainly to a reduction in the overall catalyst activity.131 This is shown for example in Fig. 2.42 which compares the steady-state methanation activities of Ni, Co, Fe and Ru catalysts relative to their fresh, unpoisoned activities as a function of gas phase H2S concentration. The distribution of the reaction products is also affected, leading to an increase in the relative amount of higher unsaturated hydrocarbons at the expense of methane formation.6 Model kinetic studies of the effect of sulfur on the methanation reaction on Ni(lOO)132,135 and Ru(OOl)133,134 at near atmospheric pressure attribute this behavior to the inhibition effect of sulfur to the dissociative adsorption rate of hydrogen but also to the drastic decrease in the... 

The experimental setup used for the first bipolar or wireless NEMCA study is shown in Figure 12.6.8 An YSZ disc with two terminal Au electrodes and one Pt catalyst film deposited on one side and a reference Au electrode on the other side is placed in a single-chamber reactor. Ethylene oxidation on the Pt catalyst film was chosen as a model reaction.8... 

Pulsed source techniques have been used to study thermal energy ion-molecule reactions. For most of the proton and H atom transfer reactions studied k thermal) /k 10.5 volts /cm.) is approximately unity in apparent agreement with predictions from the simple ion-induced dipole model. However, the rate constants calculated on this basis are considerably higher than the experimental rate constants indicating reaction channels other than the atom transfer process. Thus, in some cases at least, the relationship of k thermal) to k 10.5 volts/cm.) may be determined by the variation of the relative importance of the atom transfer process with ion energy rather than by the interaction potential between the ion and the neutral. For most of the condensation ion-molecule reactions studied k thermal) is considerably greater than k 10.5 volts/cm.). 

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