Catalysis, mechanistic

Sulfur dioxide (see above) as well as S02, SO , and SOj have been used as building blocks in three-component sulfone syntheses. It has long been known that aromatic sulfinic acids are easily available from diazonium salts and sulfur dioxide under copper catalysis . Mechanistically, aryl radicals as reactive intermediates add to sulfur dioxide generating arenesulfonyl radicals, which either take up an electron (or hydrogen) yielding a sulfinic acid or add to an olefinic double bond yielding final y -halogenated alkyl aryl sulfones (equation 78). 

Treatment of (Et0)2P(0)H with Pt(PEt3)3 cleanly forms HPt [P(0)(0Et)2](PEt3)2 via oxidative addition of the H-P bond (Scheme 20), which we believe is the initiation process of the catalysis. Mechanistic detail of the hydrophosphorylation reaction will be described for the reaction with alkene compounds. 

Imidazole Catalysis Hydroxyl Group Catalysis Mechanistic Conclusions... 

Tsiplakides, D. et al., Electrochemical promotion of catalysis mechanistic investigations and monolithic electropromoted reactors, Catal. Today, 100, 133, 2005. 

Functionalized tertiary aryl phosphines play an important role in transition metal coordination chemistry. These compounds have been used as ligands in synthesis, catalysis, mechanistic studies, and in the study of coordination compounds as structural models. In this contribution the syntheses of two new types of these ligands, tertiary aryl phosphines functionalized by an amide group, are detailed. The published coordination chemistry of these compounds includes the study of intramolecular N—H oxidative addition, the synthesis of chelates stabilized amido complexes, and the preparation of complexes with both ftve- and six-membered chelate rings. ... 

France S, Shah MH, Weatherwax A, Wack H, Roth JP, Lectka T (2(X)5) Bifunctioneil Lewis acid-nucleophile-based asymmetric catalysis mechanistic evidence for imine activation working in tandem with chiral enolate formation in the synthesis of p-lacttuns. J Am Chem Soc 127 1206-1215... 

This review focuses on the synthetic applications of carbon-hydrogen bond arylation by aryl halides, concentrating on palladium and copper catalysis. Mechanistic issues will be covered only briefly. Some examples of carbon-hydrogen... 

Abstract This chapter overviews the roles of transition metal complexes having the organoiodine(III) reagents iodosylarenes (ArlO) and (imino)iodoarenes (ArINR) as ligands in catalysis. Mechanistic implications are discussed. 

Fig. 3.1 a Photoredox catalysis mechanistic pathway [9]. b Orbital paradigm of metal-centered, metal-to-ligand, and ligand-centered charge transfer (MC, MLCT, and LC) [8, 13]... 

Ligand, Additive, and Solvent Effects in Palladium Catalysis - Mechanistic Studies En Route to Catalyst Design... 

Studies of inelastic scattering are of considerable interest in heterogeneous catalysis. The degree to which molecules are scattered specularly gives information about their residence time on the surface. Often new chemical species appear, whose trajectory from the surface correlates to some degree with that of the incident beam of molecules. The study of such reactive scattering gives mechanistic information about surface reactions. 

Halpern J 1978 Mechanistic aspects of homogeneous catalysis Trans. Am. Crystallogr. Assoc. 14 59-70... 

This chapter introduces the experimental work described in the following chapters. Some mechanistic aspects of the Diels-Alder reaction and Lewis-acid catalysis thereof are discussed. This chapter presents a critical survey of the literature on solvent ejfects on Diels-Alder reactions, with particular emphasis on the intriguing properties of water in connection with their effect on rate and selectivity. Similarly, the ejfects of water on Lewis acid - Lewis base interactions are discussed. Finally the aims of this thesis are outlined. 

Unfortunately, the number of mechanistic studies in this field stands in no proportion to its versatility" . Thermodynamic analysis revealed that the beneficial effect of Lewis-acids on the rate of the Diels-Alder reaction can be primarily ascribed to a reduction of the enthalpy of activation ( AAH = 30-50 kJ/mole) leaving the activation entropy essentially unchanged (TAAS = 0-10 kJ/mol)" . Solvent effects on Lewis-acid catalysed Diels-Alder reactions have received very little attention. A change in solvent affects mainly the coordination step rather than the actual Diels-Alder reaction. Donating solvents severely impede catalysis . This observation justifies the widespread use of inert solvents such as dichloromethane and chloroform for synthetic applications of Lewis-acid catalysed Diels-Alder reactions. 

The first example of enantioselective catalysis of a Diels-Alder reaction was reported in 1979 . Since then, an extensive set of successful chiral Lewis-acid catalysts has been prepared. Some selected examples will be presented here together with their mechanistic interpretation. For a more complete... 

Of all the work described in this thesis, this discovery is probably the most significant. Given the fact that the arene - arene interactions underlying the observed enantioselectivity of ftie Diels-Alder reactions described in Chapter 3 are also encountered in other organic reactions, we infer that, in the near future, the beneficial influence of water on enantioselectivity can also be extended to these transformations. Moreover, the fact that water can now be used as a solvent for enantioselective Lewis-add catalysed reactions facilitates mechanistic studies of these processes, because the number of equilibria that need to be considered is reduced Furthermore, knowledge and techniques from aqueous coordination chemistry can now be used directly in enantioselective catalysis. 

Nitration at the encounter rate and nitrosation As has been seen ( 3.3), the rate of nitration by solutions of nitric acid in nitromethane or sulpholan reaches a limit for activated compounds which is about 300 times the rate for benzene imder the same conditions. Under the conditions of first-order nitration (7-5 % aqueous sulpholan) mesitylene reacts at this limiting rate, and its nitration is not subject to catalysis by nitrous acid thus, mesitylene is nitrated by nitronium ions at the encounter rate, and under these conditions is not subject to nitration via nitrosation. The significance of nitration at the encounter rate for mechanistic studies has been discussed ( 2.5). 

The sonochemistry of solutes dissolved in organic Hquids also remains largely unexplored. The sonochemistry of metal carbonyl compounds is an exception (57). Detailed studies of these systems led to important mechanistic understandings of the nature of sonochemistry. A variety of unusual reactivity patterns have been observed during ultrasonic irradiation, including multiple ligand dissociation, novel metal cluster formation, and the initiation of homogeneous catalysis at low ambient temperature (57). 

En me Mechanism. Staphylococcal nuclease (SNase) accelerates the hydrolysis of phosphodiester bonds in nucleic acids (qv) some 10 -fold over the uncatalyzed rate (r93 and references therein). Mutagenesis studies in which Glu43 has been replaced by Asp or Gin have shown Glu to be important for high catalytic activity. The enzyme mechanism is thought to involve base catalysis in which Glu43 acts as a general base and activates a water molecule that attacks the phosphodiester backbone of DNA. To study this mechanistic possibiUty further, Glu was replaced by two unnatural amino acids. 

M. L. Poutsma, "Mechanistic Gonsiderations of Hydrocarbon Transformations Gatalyzed by Zeohtes," in J. A. Rabo, ed.. Zeolite Chemisty and Catalysis, AGS Monograph 171, American Ghemical Society, Washington, D.G., 1976. 

CS indicated that the enolate of acetyl-CoA is significantly more stable than the enol or a proton-sharing enolic form and thus do not support the proposal that a low barrier hydrogen bond is involved in catalysis in CS. This study demonstrates the practial application of high level QM-MM studies to the elucidation of mechanistic details of an enzymatic reaction that are otherwise unclear. 

The hydration reaction has been extensively studied because it is the mechanistic prototype for many reactions at carbonyl centers that involve more complex molecules. For acetaldehyde, the half-life of the exchange reaction is on the order of one minute under neutral conditions but is considerably faster in acidic or basic media. The second-order rate constant for acid-catalyzed hydration of acetaldehyde is on the order of 500 M s . Acid catalysis involves either protonation or hydrogen bonding at the carbonyl oxygen. 

Certain reactions between carbonyl compounds and nucleophiles are catalyzed by amines. Some of these reactions are of importance for forming carbon-carbon bonds, and these are discussed in Chapter 2 of Part B. The mechanistic principle can be illustrated by considering the catalysis of the reaction between aldehydes and hydroxylamine by aniline derivatives. 

---