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Hydrogen symmetric

Barkemeyer et al. [8 a] showed previously that high enhancement can also be achieved at high magnetic fields when hydrogenating symmetric systems, where the breakdown of symmetry is caused by the naturally abundant 13C nuclei occurring individually in the two other equivalent carbon atoms of the double bond of the substrate (see Scheme 12.8) [8a]. [Pg.345]

However, the shift from threefold to atop position can only be understood by also considering the LDOS j(E) of the surface-fragment orbitals that interact with the adsorbed hydrogen atoms. For atop-adsorbed hydrogen, one has to compute the LDOS i(E) of the atomic orbital (pi of the metalatom bonded to hydrogen for three-coordinated hydrogen symmetrically coordinated to three surface metalatoms, it is the LDOS f(E) of the grouporbital /]/3>i(Pi + (P2 + (P )-... [Pg.355]

Two other examples will sufhce. Methane physisorbs on NaCl(lOO) and an early study showed that the symmetrical, IR-inactive v mode could now be observed [97]. In more recent work, polarized FTIR rehection spectroscopy was used to determine that on being adsorbed, the three-fold degeneracies of the vs and v modes were partially removed [98]. This hnding allowed consideration of possible adsorbate-adsorbent geometries one was that of a tripod with three of the methane hydrogens on the surface. The systems were at between 4 and 40 K so that the equilibrium pressure was very low, about 10 atm. [Pg.635]

Hydrogen atoms chemisorbed on a metal surface may be bonded to just one metal atom or may be bonded to two atoms in a symmetrical bridge. In each case, there are three normal modes. Sketch what these are, and indicate any degeneracies (assume the metal atoms to be infinitely heavy). [Pg.742]

Table 1 Hsts some of the physical properties of duoroboric acid. It is a strong acid in water, equal to most mineral acids in strength and has a p p o of —4.9 as compared to —4.3 for nitric acid (9). The duoroborate ion contains a neady tetrahedral boron atom with almost equidistant B—F bonds in the sohd state. Although lattice effects and hydrogen bonding distort the ion, the average B—F distance is 0.138 nm the F—B—F angles are neady the theoretical 109° (10,11). Raman spectra on molten, ie, Hquid NaBF agree with the symmetrical tetrahedral stmcture (12). Table 1 Hsts some of the physical properties of duoroboric acid. It is a strong acid in water, equal to most mineral acids in strength and has a p p o of —4.9 as compared to —4.3 for nitric acid (9). The duoroborate ion contains a neady tetrahedral boron atom with almost equidistant B—F bonds in the sohd state. Although lattice effects and hydrogen bonding distort the ion, the average B—F distance is 0.138 nm the F—B—F angles are neady the theoretical 109° (10,11). Raman spectra on molten, ie, Hquid NaBF agree with the symmetrical tetrahedral stmcture (12).
The two carbons that bear no numbers are common to both rings and carry no hydrogen atoms. From the symmetrical configuration of the naphthalene molecule, it should be possible for only two isomers to exist when one hydrogen atom is replaced by another atom or group. Therefore, positions 1, 4, 5, and 8 are identical and often are designated as "a" positions likewise, positions 2, 3, 6, and 7 are identical and are designated as "P" positions, as shown in (2). [Pg.481]

Nitroparaffias (or nitroaLkanes) are derivatives of the alkanes ia which one hydrogen or more is replaced by the electronegative nitro group, which is attached to carbon through nitrogen. The nitroparaffins are isomeric with alkyl nitrites, RONO, which are esters of nitrous acid. The nitro group ia a nitroparaffin has been shown to be symmetrical about the R—N bond axis, and may be represented as a resonance hybrid ... [Pg.97]

Synthesis. Symmetrical diacyl peroxides (20, R = R = alkyl or aryl) are prepared by the reaction of an acyl chloride or anhydride with sodium peroxide or hydrogen peroxide and a base ... [Pg.125]

Symmetrical or unsymmetrical diacyl peroxides (20, R, R = alkyl or aryl) can be synthesi2ed directiy from carboxyhc acids and hydrogen peroxide or from peroxycarboxyhc acids with dicyclohexylcarbodiimide or A/,A/-dicarbonyldiimida2ole as condensing agents (187) ... [Pg.125]

Symmetrical tertiary amines can be prepared in an analogous manner to secondary amines (1). Catalytic hydrogenation at elevated temperature and low pressure with a hydrogen purge produces a mixture of primary, secondary, and tertiary amines. [Pg.220]

Resonance theory can also account for the stability of the allyl radical. For example, to form an ethylene radical from ethylene requites a bond dissociation energy of 410 kj/mol (98 kcal/mol), whereas the bond dissociation energy to form an allyl radical from propylene requites 368 kj/mol (88 kcal/mol). This difference results entirely from resonance stabilization. The electron spin resonance spectmm of the allyl radical shows three, not four, types of hydrogen signals. The infrared spectmm shows one type, not two, of carbon—carbon bonds. These data imply the existence, at least on the time scale probed, of a symmetric molecule. The two equivalent resonance stmctures for the allyl radical are as follows ... [Pg.124]

Oxidation. Disulfides are prepared commercially by two types of reactions. The first is an oxidation reaction uti1i2ing the thiol and a suitable oxidant as in equation 18 for 2,2,5,5-tetramethyl-3,4-dithiahexane. The most common oxidants are chlorine, oxygen (29), elemental sulfur, or hydrogen peroxide. Carbon tetrachloride (30) has also been used. This type of reaction is extremely exothermic. Some thiols, notably tertiary thiols and long-chain thiols, are resistant to oxidation, primarily because of steric hindrance or poor solubiUty of the oxidant in the thiol. This type of process is used in the preparation of symmetric disulfides, RSSR. The second type of reaction is the reaction of a sulfenyl haUde with a thiol (eq. 19). This process is used to prepare unsymmetric disulfides, RSSR such as 4,4-dimethyl-2,3-dithiahexane. Other methods may be found in the Hterature (28). [Pg.12]

Reaction Mechanism. High temperature vapor-phase chlorination of propylene [115-07-17 is a free-radical mechanism in which substitution of an allyhc hydrogen is favored over addition of chlorine to the double bond. Abstraction of allyhc hydrogen is especially favored since the allyl radical intermediate is stabilized by resonance between two symmetrical stmctures, both of which lead to allyl chloride. [Pg.33]

See other pages where Hydrogen symmetric is mentioned: [Pg.10]    [Pg.145]    [Pg.73]    [Pg.519]    [Pg.237]    [Pg.10]    [Pg.145]    [Pg.73]    [Pg.519]    [Pg.237]    [Pg.59]    [Pg.139]    [Pg.290]    [Pg.1063]    [Pg.568]    [Pg.578]    [Pg.74]    [Pg.90]    [Pg.185]    [Pg.529]    [Pg.23]    [Pg.31]    [Pg.335]    [Pg.393]    [Pg.101]    [Pg.118]    [Pg.130]    [Pg.398]    [Pg.180]    [Pg.347]    [Pg.250]    [Pg.250]    [Pg.399]    [Pg.218]    [Pg.197]    [Pg.117]    [Pg.217]    [Pg.343]    [Pg.64]    [Pg.288]    [Pg.122]    [Pg.279]    [Pg.31]   
See also in sourсe #XX -- [ Pg.523 ]



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Hydrogen symmetrical

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