Hydroxyl reaction with alkane

Greiner, N.R. (1970) Hydroxyl radical kinetics by kinetic spectroscopy. VI. Reactions with alkanes in the range 300-500 K. J. Chem. Phys. 53, 1070-1076. 

Harris, S.J., Kerr, J.A. (1988) Relative rate measurements of some reactions of hydroxyl radicals with alkanes studied under atmospheric conditions. Int. J. Chem. Kinet. 20, 939-955. 

These considerations point to a fundamental issue that must be overcome in developing hydroxylation catalyst systems based on the CH activation reactions coordination reactions with alkanes (whether associative or dissociative) leading to weakly bound, intermediate alkane complexes, or direcdy to a transition state leading to CH cleavage, can be expected to be subject to severe ground state inhibition by the desired products such as methanol or by most media or reac-... 

Alkenes are reduced by addition of H2 in the presence of a catalyst such as platinum or palladium to yield alkanes, a process called catalytic hydrogenation. Alkenes are also oxidized by reaction with a peroxyacid to give epoxides, which can be converted into lTans-l,2-diols by acid-catalyzed epoxide hydrolysis. The corresponding cis-l,2-diols can be made directly from alkenes by hydroxylation with 0s04. Alkenes can also be cleaved to produce carbonyl compounds by reaction with ozone, followed by reduction with zinc metal. 

TS-1 is a material that perfectly fits the definition of single-site catalyst discussed in the previous Section. It is an active and selective catalyst in a number of low-temperature oxidation reactions with aqueous H2O2 as the oxidant. Such reactions include phenol hydroxylation [9,17], olefin epoxida-tion [9,10,14,17,40], alkane oxidation [11,17,20], oxidation of ammonia to hydroxylamine [14,17,18], cyclohexanone ammoximation [8,17,18,41], conversion of secondary amines to dialkylhydroxylamines [8,17], and conversion of secondary alcohols to ketones [9,17], (see Fig. 1). Few oxidation reactions with ozone and oxygen as oxidants have been investigated. 

For transition-metal catalyzed hydroxylation of alkane C-H bonds, the reactions of alkanes with platinum(II) complexes were the most successful. In an aqueous solution of hexachloroplatinic acid and Na2PtCl4, alkanes were converted into a mixture of isomeric alkyl chlorides, alcohols, and ketones, and the platinum(IV) is reduced to platinum(II).7 The kinetics of the reaction with methane as the alkane have been described in detail.8... 

DeMore, W.B., Bayes, K.D.(1999) Rate constants for the reactions of hydroxyl radical with several alkanes, cycloalkanes, and dimethyl ether. J. Phys. Chem. A, 103, 2649-2654. 

Lloyd, A.C., Darnall, K.R., Winer, A.M., Pitts, Jr., J.N. (1976) Relative rate constants for reaction of the hydroxyl radical with a series of alkanes, alkenes, and aromatic hydrocarbons. J. Phys. Chem. 80, 189-794. 

Hydroxy radicals are intermediates in the reaction of Ti3+ and H2O2 (175). This system is also capable of hydroxylation of aromatics and alkanes but, in contrast to reactions with Fenton s reagent (Fe2+ + H202, reductive, homolytic cleavage, Eq. (11)), only non-chain processes are possible, because Ti4+ is not usually an oxidant. Hence, relatively high selectivities are feasible. 

Although organochromium catalysts are not well characterized, organochromium compounds are thought to bind to the support by reaction with surface hydroxyls as other types do. When Cr(allyl)3 or Cr(allyl)2 is used, propylene is released (59,60). Chromocene loses one ring (52-55), and / -stabilized alkyls of chromium lose the alkane (81). 

Figure 9.25 shows the correlation coefficient of 0.9636 between the hydroxyl radical rate constants and UV/Ti02 rate constants for chlorinated alkanes. Therefore, the reaction mechanism for the degradation of chlorinated alkanes by UV/Ti02 is similar to the reaction with hydroxyl radical. This correlation suggests that the reaction proceeds via hydroxyl radical attack on the chlorinated alkane. 

HF amine complexes are also employed for nucleophilic displacement of halogens and hydroxyls. Olah and coworkers used the reaction with and without the help of NCVBF for preparing fluoroadamantanes and fluorodiadamantanes28. They also found that an electrophilic salt would extract an hydride a to a C—Br moiety, followed by F attack on the resulting carbocation to form vicinal fluorobromo alkanes (equation 15)29. 

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