Bonding dimers

The organophilic part R can come from a natural fatty acid whose carbon number is around 18 and whose chain contains a number of unsaturated bonds. Dimers of fatty acids (Cgg diacids) have also been used. 

Intermolecular H bond Dimeric Polymeric 3600-3500 3400-3200 (s) Rather sharp. Absorptions arising from H bond with polar solvents also appear in this region. Broad... 

Figure 9.46 shows an example of a fluorescence excitation spectmm of hydrogen bonded dimers of x-tetrazine (1,2,4,5-tetraazabenzene). The pressure of x-tetrazine seeded into helium carrier gas at 4 atm pressure was about 0.001 atm. Expansion was through a 100 pm diameter nozzle. A high-resolution (0.005 cm ) dye laser crossed the supersonic jet 5 mm downstream from the nozzle. 

The three bands in Figure 9.46 show resolved rotational stmcture and a rotational temperature of about 1 K. Computer simulation has shown that they are all Ojj bands of dimers. The bottom spectmm is the Ojj band of the planar, doubly hydrogen bonded dimer illustrated. The electronic transition moment is polarized perpendicular to the ring in the — Ag, n — n transition of the monomer and the rotational stmcture of the bottom spectmm is consistent only with it being perpendicular to the molecular plane in the dimer also, as expected. 

Fig. 8. Rephcation. The amino adenosine X and the pentafluorophenyl ester Y form a hydrogen-bonded dimer XY, prior to reaction between the amine and the activated ester groups (shown in the circle). The reaction product is a <7 -amide conformer cis-Z that isomeri2es to the more stable trans- acnide Z. The rephcative process is cataly2ed by the reaction product Z (also referred to as the template). First, a termolecular complex XYZ is formed from X, Y, and Z.

The amide formation reaction (highlighted by the circle) leads to the production of a hydrogen-bonded dimer (ZZ) of the reaction product Z with the template Z. The dimer is in thermodynamic equilibrium with free template in the reaction medium. 

In the vapor phase formic acid forms a hydrogen-bonded dimer ... 

Bond dissociation energies (BDEs) for the oxygen—oxygen and oxygen— hydrogen bonds are 167—184 kj/mol (40.0—44.0 kcal/mol) and 375 kj/mol (89.6 kcal/mol), respectively (10,45). Heats of formation, entropies, andheat capacities of hydroperoxides have been summarized (9). Hydroperoxides exist as hydrogen-bonded dimers in nonpolar solvents and readily form hydrogen-bonded associations with ethers, alcohols, amines, ketones, sulfoxides, and carboxyhc acids (46). Other physical properties of hydroperoxides have been reported (46). 

The structure of lumazine has been studied more precisely by X-ray analysis (72AX(B)659). The crystal structure is built up of almost coplanar, hydrogen-bonded dimers of lumazine with the oxygens of the pyrimidine moiety in the keto form and the observed bond distances indicating the pyrazine ring electrons to be delocalized. 

Imidazoles and pyrazoles with free NH groups form hydrogen-bonded dimers and oligomers (66AHC(6)347). 

In 1951, pyrid-4-thione was concluded from ultraviolet spectral data to exist predominantly as such in ethanolic solution,but no comparisons were made and this conclusion had to be considered as tentative. Pyrid-2-thione has been shown by X-ray crystallography to exist as hydrogen-bonded dimers (201) in the solid state, the posi-... 

Uracil dimers were studied at the MP2 level using the 6-3IG basis with modified polarization functions. Eleven low-energy minima were located Seven of them are H-bonded, one is T-shaped, and three correspond to various stacked arrangements. The most stable structure was found to be the H-bonded dimer with two Ni-H O2-H bonds (Scheme 85) [98JPC(A)6921]. 

The following remarks can be made about Huang s mechanism as on any mechanism involving hydrogen-bonded dimers such as in 19) where the existence of the equilibrium... 

Ueberreiter and Hager19 rather surprisingly found an overall reaction order of 6 at the beginning of ethanediol esterification. They explained this with the existence of hydrogen-bonded dimers. 

Similar reactions with the corresponding acetamidinate anion gave only the monomeric [MeC(NCy)2]2V(THF)2 and [MeC(NCy)2]2VCl, respectively (Scheme 108). Removal of THF from [MeC(NCy)2]2V(TFlF)2 or reduction of [MeC (NCy)2]2VCl led to formation of the homoleptic V(III) complex [MeC(NCy)2]3V instead of a metal-metal-bonded dimer. ° °... 

A single-crystal. X-ray diffraction analysis of the structure has recently been performed that shows that the compound is, in fact, a tin-tin bonded dimer, having an Sn-Sn bond length of 276 pm, similar to that in hexaphenylditin this was interpreted in terms of overlap of a filled spaPy orbital with the vacant p orbitals on the other tin atom resulting in a "bent, weak, Sn-Sn double bond (332). 

The compound Rh2(02) may be regarded as the metal-metal-bonded dimer of the parent monomer RhCO ), presumably formed by a mechanism similar to that described for Ag2(CO) (118). The lower-stoichiom-... 

In Other Metal-Metal Bonded Dimers and Clusters of Group-IB Elements... 

The molybdenum and tunsten diphenylacetylene compounds have been chemically useful primarily as precursors to the quadruple metal-metal bonded dimers [M(Por)]2, formed by solid-state vacuum pyrolysis reactions. However. Mo(TTP)()/"-PhC CPh) is also a useful substrate in atom-transfer reactions, reacting with Sx or Cp2TiS i to form Mo(TTP)=S. The reaction can be reversed by treatment of Mo(TTP)=S with PPh (which removes sulfur as PhxP=S) and PhC CPh. The order of preference for ligand binding to molybdenum 11) has been established to be PPh < PhC CPh < 4-picoline. ... 

Fig. 14. Optimized structures of covalently bonded linear dimer (BD), non-bonded dimer (LD), and parallel dimer (PD)...

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