Dienes, hybridization

A hydrocarbon that contains two double bonds is called an alkadiene, and the rela tionship between the double bonds may be described as isolated conjugated or cumu lated Isolated diene units are those m which two carbon-carbon double bond units are separated from each other by one or more sp hybridized carbon atoms 1 4 Pentadiene and 1 5 cyclooctadiene have isolated double bonds... 

Section 10 7 Conjugated dienes are stabilized by electron delocalization to the extent of 12-16 kJ/mol (3 kcal/mol) Overlap of the p orbitals of four adja cent sp hybridized carbons in a conjugated diene gives an extended tt system through which the electrons are delocalized... 

Propadiene (H2C=C=CH2) also called allene, is the simplest cumulated diene The two tt bonds m an allene share an sp hybridized carbon and are at right angles to each other Certain allenes such as 2 3 pentadiene (CH3CH=C=CHCH3) possess a chirality axis and are chiral... 

Conjugated diene (Section 10 5) System of the type C=C—C=C in which two pairs of doubly bonded carbons are joined by a single bond The tt electrons are delocalized over the unit of four consecutive sp hybridized carbons Connectivity (Section 1 6) Order in which a molecule s atoms are connected Synonymous with constitution Constitution (Section 1 6) Order of atomic connections that defines a molecule... 

The latter reaction is an example of the di-n-methane rearrangement This rearrangement is a very general reaction for 1,4-dienes and other systems that have two n systems separated by an -hybridized earbon atom ... 

FIGURE 10.5 (a) Isolated double bonds are separated from one another by one or more sp -hybridized carbons and cannot overlap to give an extended orbital, (b) In a conjugated diene, overlap of two orbitals gives an extended system encompassing four carbon atoms. 

What accounts for the stability of conjugated dienes According to valence bond theory (Sections 1.5 and 1.8), the stability is due to orbital hybridization. Typical C—C bonds like those in alkanes result from a overlap of 5p3 orbitals on both carbons. In a conjugated diene, however, the central C—C bond results from conjugated diene results in part from the greater amount of s character in the orbitals forming the C-C bond. 

In the Diels-Alder transition state, the two alkene carbons and carbons 1 and 4 of the diene rehybridize from sp2 to sp 5 to form two new single bonds, while carbons 2 and 3 of the diene remain sp2-hybridized to form the new double bond in the cyclohexene product. We ll study this mechanism at greater length in Chapter 30 but will concentrate for the present on learning more about the characteristics and uses of the Diels-Alder reaction. 

If the diene is unsymmetrical, there may be two 1,2-addition products. The competition between two types of addition product comes about because the carbocation resulting from attack by Y is a resonance hybrid, with partial positive charges at the 2 and 4 positions ... 

Addition to conjugated systems can also be accomplished by any of the other three mechanisms. In each case, there is competition between 1,2 and 1,4 addition. In the case of nucleophilic or free-radical attack, the intermediates are resonance hybrids and behave like the intermediate from electrophilic attack. Dienes can give 1,4 addition by a cyclic mechanism in this way ... 

The hybrid cyclic pentayne 181 underwent Diels-Alder reaction with the electron-deficient diene tetrachlorothiophene 1,1-dioxide 192, but only at one of the two triple bonds of the 1,3-diyne moiety. This was followed by loss of SO2 to give the tetrachlorobenzannelated cyclotetradecenetetrayne 193 (Scheme 37) [18]. 

In the case of an unsymmetrical diene such as isoprene, different orientations of the structural units are possible depending on which end of the diene unites with the chain radical. Of the two competing reactions (6) and (7) shown on page 241, the former would appear to be the more probable one on account of the influence of the methyl substituent in stabilizing to some extent one of the resonance hybrid structures which are shown. 

Ene reactions tended to occur as alternative reaction pathways to [2 + 4] cycloaddition, especially when sterically bulky silenes had substituents on the sp2-hybridized carbon atom and dimethylbutadiene served as the diene component. In the ene reactions studied the silene acted as the enophile as often as it acted as the ene. 

Complexation of the s-cis 1,3-diene conformer has been described as a hybrid of two extreme coordination modes an j4-diene (2a) and a a2,jr metallacyclopent-3-ene (2b). 

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