Furan kinetics

In general, however, one must be concerned with the possible dominance of chemistry by small amounts of dianions. Although not seen in electrochemistry, the naphthalene dianion has been reported in the literature ll l5°-159 167) and could dictate the results of quench reactions. In the specific case of sodium naphthalene in tetrahydro-furan, kinetic analysis of a water quench directly implicites the radical anion as the chemically dominant species 150 -158-167>. In the case of the larger aromatic molecule, perylene, however, the dianion and not the radical anion is the species quenched167a). 

Reactions of 2-trialkylsilyl- and trialkylstannyl-substituted furans with benzhydryl cations provided 2,5-disubstituted furans and ipso-substituted furans. Kinetic investigations of the reactions revealed that the monosubstituted product was produced from the protonolysis of the 2,5-disubstituted furylstannane, while the 2,5-disubstituted furan was derived from an electrophilic substitution of the mono-substituted furan. Introduction of a trialkylsilyl and a trialkylstannyl group to the 2-position of furan hardly affected the reactivity of this position towards carbenium ions ipso attack), while the 5-position is somewhat activated <01OL1629,01OL1633>. 

Javadi, M.S., O.J. Nielsen, T.J. WalUngton, M.D. Hurley, and J.G Owens (2007), Atmospheric chemistry of 2-ethoxy-3,3,4,4,5-pentafluorotetrahydro-2,5-bis[l,2,2,2-tetraHuoro-l-(trifluoromethyl)ethyl]-furan Kinetics, mechanisms, and products of Cl atom and OH radical initiated oxidation. Environ. Sci. TechnoL, 41, 7389-7395. 

Other aspects of these copolymerizations were studied including some kinetic features, molecular weights (which were low), the extent of branching due to side reactions on the furan ring, and the characterization of the complex formed between 2-furaldehyde and BF3 Et20. 

For the exchanges carried out in liquid ammonia, kinetic isotope effects kD kT of 2.3-2.5 have been obtained for reaction of benzene, toluene, and naphthalene and for the reactions of the 2 positions of furan and thiophene with -butoxide in dimethyl sulphoxide somewhat lower values, 1.5 and 1.3, respectively, were obtained591, but whether this was a solvent or a substituent effect is not apparent from the data. 

The reactivity of heterocyclic dienes is determined by the nature and number of heteroatoms and, in the case of heteroaromatic compounds, also by the aromatic character. Furans undergo Diels-Alder reactions with strong dienophiles and generally afford cxo-cycloadducts which are thermodynamically more stable than the kinetically favoured c z/o-adducts. 

The primary interaction of singlet oxygen, produced by energy transfer from the excited sensitizer, with the diene can give rise to an exciplet that then collapses to peroxide, to a 1,4-biradical or to a 1,4-zwitterion alternatively, the adduct is the result of a concerted action without the involvement of an intermediate. Detailed kinetic Diels-Alder investigations of singlet oxygen and furans indicate that the reactions proceed concertedly but are asynchronous with the involvement of an exciplex as the primary reaction intermediate [63]. 

Cycloaddition of 125 with buckminsterfullerene (Ceo) at 3 kbar allowed the adduct [48] to be obtained, preventing a retro Diels-Alder process (Scheme 5.19). Cycloadditions of tropone (125) with furans 134 gave mixtures of 1 1 endo-dcad exo-monocycloadducts 135 and 136, respectively [49a], together with some bisadducts. In this case furan reacts solely as the 27t component in spite of its diene system. Whereas 2-methoxy furan gave mainly the kinetically controlled product 135 (R= OMe Ri =R2 =H), under the same conditions 3,4-dimethoxy furan afforded the thermodynamically controlled cycloadduct 136 (R=H Ri =R2 =OMe) as the major product (Scheme 5.19). 

In order to estimate the branching factor e for polyvinyl acetate we have analyzed the SEC data obtained on sample PVAc-E4 using the MWBD method with various e values. This sample was synthesized under kinetically controlled conditions (isothermal, T = 60°C, [AIBN] = 10"5 g-mole/1, conversion level of 48.5 percent). The SEC measurements were made at 25°C in tetrahydro-furan. The Mark-Houwink coefficients used for linear polyvinyl acetate are those suggested by Graessley (21), namely K = 5.1 x 10"5 dl/gm and a = 0.791. The whole polymer M, Mj, and B j values obtained are listed in Table II. 

However, the rate of substitution of pyrrole is too high and that of benzene too low to be followed by standard techniques, and consequently a kinetic study was limited to furan, thiophene, selenophene, and tellurophene. Activation entropies are constant for all four members of the series, indicating that the arrangement of the atoms around the reaction center is similar, i.e., the transition states of all four rings occur at similar positions along the reaction coordinate. The relative rates for the formylation are thus controlled by the activation enthalpies. At 30UC relative rates are furan (107), thiophene (1), selenophene (3.64), and tellurophene (36.8).68... 

Additional studies featuring reactions of thiophene derivatives detail biohydrolysis of (S)-3-(thiophen-2-ylthio)butanenitrile <06TL8119>, lipase catalyzed resolution of thiotetronic acids <06TL7163>, enzymatic kinetic resolution of l,l-dioxo-2,3-dihydrothiophen-3-ol <06TL5273>, and efficient synthesis of 6-methyl-2,3-dihydrothieno[2,3-c]furan 55, a coffee... 

When furans were tethered to silyl enol ethers at the 2-position, spiroannulation also occurred at the 2-position under electrochemical conditions <06CC194>, as exemplified below. The formation of the kinetic products is the result of the higher nucleophilicity of the furan C2-position. 

Reactions of furan (5) under solvent-free conditions, catalyzed by Montmorillonite K10, have been described by Cintas [27]. The reaction with methyl vinyl ketone (32) produced Michael addition in positions 2 and 5, whereas reaction with symmetrically substituted cyclic dienophiles produced a mixture of the endo and exo adducts with the kinetically favored endo adduct predominating, except when maleic anhydride (39) was used as the dienophile (Scheme 9.2). 

Zirconocene-catalyzed kinetic resolution of dihydrofurans is also possible, as illustrated in Scheme 6.8 [18]. Unlike their six-membered ring counterparts, both of the heterocycle enantiomers react readily, albeit through distinctly different reaction pathways, to afford — with high diastereomeric and enantiomeric purities — constitutional isomers that are readily separable (the first example of parallel kinetic resolution involving an organome-tallic agent). A plausible reason for the difference in the reactivity pattern of pyrans and furans is that, in the latter class of compounds, both olefmic carbons are adjacent to a C—O bond C—Zr bond formation can take place at either end of the C—C 7T-system. The furan substrate and the (ebthi)Zr-alkene complex (R)-3 interact such that unfavorable... 

The positional selectivity on formation of the cydoadducts from 221 is less pronounced than that of the isobenzene 162, but it is the conjugated double of the allene moiety as well that predominantly undergoes the reaction. As demonstrated by the thermolysis of several products, these are formed from 221 under kinetic control. For example, on heating, the styrene adduct 240 and the furan adduct 231 rearranged virtually completely to 241 and 232, which are formally the cycloadducts to the non-conjugated double bond of the allene subunit of 221 [92, 137]. The cause of the selectivity may be the spin-density distribution in the phenylallyl radical entity of the diradical intermediates. 

The chiral furan 120, prepared from 119, underwent a Diels-Alder reaction with racemic 110b (4equiv.) at -100 °C. Kinetic resolution of the allenic diester efficiently occurred to afford the oxabicydic enamine adduct 121 stereoselectively [100], The adduct was transformed to (+)-cydophellitol. 

Hydroxyaminobenzo-furan and -thiophene (32a X = O, S) are the unstable enam-ine tautomers of the corresponding oximes (32b). Kinetics of the tautomeric interconversions have been measured, yielding tautomeric constants the latter have been compared with the corresponding keto-enol constants. The enamines are ca 40 times less stable, relative to the oximes, than are the enols, relative to the ketones. The minor tautomers are ca 100 times more stable (relative to the major) for the benzothiophene system. 

In order to gain a better insight into these problems, a fundamental study of simple mono- and di-urethanes of the furan series was undertaken. This included the determination of their structure, properties and stability (35) and the mechanism and kinetics of their formation. The combinations investigated were furan alcohols and diols with aliphatic, aromatic and furanic isocyanates and the latter mono- and bis- derivatives with aliphatic and arylalkyl alcohols and diols. The furanic isocyanates prepared included 9 and those given below ... 

It was found that whereas 2-fuiyl isocyanate 29 and its difunctional 2,5-homologue 30 are unstable and resinify on standing at room temperature even if kept under nitrogen, the corresponding urethanes formed with aliphatic and furanic alcohols are stable. In more general terms, both the kinetics and the mechanism of the formation of furanic urethanes and diurethanes could be rationalized on the basis of established criteria combined with the specific effects of the furan moiety (35). All the products were M y characterized and... 

The products 109 are versatile precursors for bicyclic tetrahydro-2-furanones and -furans °. The tributylstannane rac-109d undergoes a kinetic resolution of medium efficiency when it is treated with MeLi/(—)-sparteine (equation 24) °. The substitution products 109b and the less reactive enantiomer ewt-109d are obtained with medium enantioselectivity. 

Approaches to oseltamivir phosphate (1) that were independent of ( )-shikimic acid as the raw material were also evaluated. The furan-ethyl acrylate Diels-Alder approach is shown in Scheme 7.8 (Abrecht et al., 2001, 2004). The zinc-catalyzed Diels-Alder reaction between furan and ethyl acrylate was heated at 50°C for 72 h to provide a 9 1 mixture favoring exo-isomer rac-43 over the enJo-isomer. The enJo-isomer was kinetically preferred, but with increased reaction times an equilibrium ratio of 9 1 was achieved favoring the thermodynamically preferred exo-isomer rac-43. The optical resolution of rac-43 was achieved via enantioselective ester hydrolysis using Chirazyme L-2 to give (—)-43 in 97%... 

Investigations of the mechanism of decarboxylation of hexuronic acids have largely involved kinetic and tracer studies. When either D-xylo-5-hexulosonic acid or D-glucuronic acid is converted into 27 in acidified, tritiated water, the resulting 27 contains 18% and 15%, respectively, of the activity of the solvent as carbon-bound tritium.21 Further degradation studies showed that the isotope is situated on the furan ring at either position 3 or 4, or both these atoms correspond to C-3 or C-4 of the starting uronic acid. 

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