Deuteriation

Figures 1.9a and b demonstrate the effeet of proton broadband deeoupling in the C NMR speetrum of a mixture of ethanol and hexadeuterioethanol. The C//j and CH2 signals of ethanol appear as intense singlets upon proton broadband deeoupling while the CD3 and CD2 resonanees of the deuteriated eompound still display their septet and quintet fine strueture deuterium nuelei are not affected by H decoupling because their Larmor frequeneies are far removed from those of protons further, the nuelear spin quantum number of deuterium is 7/3=/ in keeping with the general multiplieity rule (2nx Ix+ 1, Seetion 1.4), triplets, quintets and septets are observed for CD, CD2 and CD3 groups, respeetively. The relative intensities in these multiplets do not follow Paseal s triangle (1 1 1 triplet for CD 1 3 4 3 1 quintet for CD2 1 3 6 7 6 3 1 septet for CD3).

In certain cases this reduction (with lithium aluminum hydride) takes a different course, and olefins are formed. The effect is dependent on both the reagent concentration and the steric environment of the hydrazone. Dilute reagent and hindered hydrazone favor olefins borohydride gives the saturated hydrocarbon. The hydrogen picked up in olefin formation comes from solvent, and in full reduction one comes from hydride and the other from solvent. This was shown by deuteriation experiments with the hydrazone (150) ... 

The main uses of deuterium are in traeer studies to follow reaetion paths and in kinetie studies to determine isotope effeets. " A good diseussion with appropriate referenees is in Comprehensive Inorganic Chemistry, Vol. 1, pp. 99-116. The use of deuterated solvents is widespread in proton nmr studies to avoid interferenee from solvent hydrogen atoms, and deuteriated eompounds are also valuable in struetural studies involving neutron diffraetion teehniques. 

Very informative results were obtained when the dediazoniation of 4-chloro-3-nitrobenzenediazonium ion and other arenediazonium ions was carried out in either O- or C-deuteriated methanol. This technique was introduced by Bunnett s... 

If one limits the consideration to only that limited number of reactions which clearly belong to the category of nucleophilic aromatic substitutions presently under discussion, only a few experimental observations are pertinent. Bunnett and Bernasconi30 and Hart and Bourns40 have studied the deuterium solvent isotope effect and its dependence on hydroxide ion concentration for the reaction of 2,4-dinitrophenyl phenyl ether with piperidine in dioxan-water. In both studies it was found that the solvent isotope effect decreased with increasing concentration of hydroxide ion, and Hart and Bourns were able to estimate that fc 1/ for conversion of intermediate to product was approximately 1.8. Also, Pietra and Vitali41 have reported that in the reaction of piperidine with cyclohexyl 2,4-dinitrophenyl ether in benzene, the reaction becomes 1.5 times slower on substitution of the N-deuteriated amine at the highest amine concentration studied. 

The most interesting feature in the spectra of the above compounds is the presence of an intense peak for [M — CH20]4 (except with 117 and 121), the identity of which was checked by means of accurate mass measurements and deuteriation of the central methylene group. The following mechanism was proposed to explain the loss of CHzO which governs very much also the consequent fragmentations (equation 38) ... 

Two examples of this method for the synthesis of olefins deuteriated exclusively at the vinyl position by the simple use of deuteriated solvents are shown in equations 64198 and 65199. Due to the alkaline reaction conditions no subsequent isomerization of the initially produced alkene is observed. 

From Leffek, Llewellyn and Bobertson (1960a, b, c) the positions indicated by the subscripts a, j3 and y were fully deuteriated. 

It was found that the signs of rotation of the recovered a-phenylbutyric acid corresponded to the known absolute configurations of the deuteriated alcohols if and only if the size relationships CH3 > CD 3 and H>D were valid. In the case of (-t-)-(S)-2-propanol-l,l,l-d3 (4), the optical yield was between 0-4 and 0 5% (Horeau et al., 1965), corresponding to A AG value of about 23 cal mol at 25°C. For the primary alcohols, quite analogous results were obtained (Horeau and Nouaille, 1966). 

The synthesis of the deuteriated analog, TgDg, by bubbling D2 into a pentane solution of TgHg in presence of Pd/C (Table 8, entry 1), was described by Calzaferri and coworkers. ... 

Hydrogen as the Leaving Group in Simple Substitution Reactions A. Hydrogen as the Electrophile 11-1 Hydrogen Exchange Deuterio-de-hydrogenation or deuteriation... 

Considerable deuteriation occurs at the C-methyl group when the salt (107) is treated with methan[2H]ol-sodium methoxide, indicating that the resonance-stabilized anion (108) is formed as well as the ylide (109),... 

I.r., n.m.r., and mass spectroscopy showed that the N-H bonded compound was present, rather than its isomers, e.g. F2P(S)-N=Pp20H or HS-F2P=N P0F2. The A -deuteriated analogues, XX P(S)-ND-POF2, were obtained by solvolysis with deuteriated formic acid. 

The stereospecific conversion of menthyl arenesulphinates into chiral aryl methyl sulphoxides may also be achieved by means of methyllithium . The reaction of methyllithium with diastereoisomerically or enantiomerically pure arenesulph-inamides 283 was found to give optically active aryl methyl sulphoxides 284 (equation 156). The preparation of optically active sulphoxides 285 and 286, which are chiral by virtue of isotopic substitution (H - D and - respectively), involves the reaction of the appropriate non-labelled menthyl sulphinates with fully deuteriated methyl magnesium iodide (equation 157) and with benzylmagnesium chloride prepared from benzyl chloride labelled with carbon (equation 158). 

The stereospecific base-cleavage of the trimethylsilyl group in 1,3-dithiane 1-oxides 499 enables to obtain the specifically deuteriated products 500 (equation 303), A nitro group in y-nitroalkyl sulphoxides 501 (obtained by the Michael addition of nitroalkanes to a, j8-unsaturated sulphoxides) is replaced by hydrogen by means of tributyltin hydride (equation 304). This reagent does not affect the sulphinyl function. The overall procedure provides an efficient method for the conjugate addition of alkyl groups to a, -unsaturated sulphoxides . ... 

Allyl p-tolyl sulphoxide 535 reacts with sodium methoxide in methanol by initial prototropic isomerization and subsequent addition of methanol to give 536 (equation 333). Protic solvents are photochemically incorporated by the open chain olefinic bond of trans methyl )S-styryl sulphoxide 537 in a Markovnikov regiospecificity (equation 334). Mercaptanes and thiophenols add to vinyl sulphoxides in a similar manner (compare also Reference 604 and Section IV.B.3) to give fi-alkylthio(arylthio)ethyl sulphoxides 538 (equation 335). Addition of deuteriated thio-phenol (PhSD) to optically active p-tolyl vinyl sulphoxide is accompanied by a low asymmetric a-induction not exceeding 10% (equation 336) . Addition of amines to vinyl sulphoxides proceeds in the same way giving )S-aminoethyl sulphoxides in good to quantitative yields depending on the substituents at the vinyl moiety When optically active p-tolyl vinyl sulphoxides are used in this reaction, diastereoisomeric mixtures are always formed and asymmetric induction at the p- and a-carbon atoms is 80 20 (R = H, R = Me) and 1.8 1 (R = Me, R = H), respectively (equation 337) ... 

Thermolysis of 16e,f in either solution or gas phase (150-350 °C) gave deuteriated ethylenes (i.e. 40e from 16e and 41f from 16f) with about 95% retention of stereochemis-try ". Similarly, pyrolysis of the stereoisomeric 2,3-diphenylthiirane oxides 16g,h proceeded smoothly to yield stilbenes and sulfur monoxide in more than 70% yield . The extrusion of SO from the trans-isomer proceeds almost stereospecifically, while that from the cis-isomer occurs with complete loss of stereochemistry. This indicates the intervention of a stepwise mechanism, and not a symmetry-allowed nonlinear chelatropic reaction . Based on the fact that all attempts to trap the intermediate with 1,3-dipolarophiles were in vain, whereas a 1 1 adduct was obtained in good yield (about 60%) with the carbon radical scavenger di-p-anisyl thioketone, a mechanistic scheme as depicted in equation 10 has been proposed . Although the radical intermediates are capable of internal rotation about the carbon-carbon bond, for the 2,3-diphenyl case (i.e. 16g,h), the rotation would be... 

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