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Aromatics reactivity

The electronic theory of organic chemistry, and other developments such as resonance theory, and parallel developments in molecular orbital theory relating to aromatic reactivity have been described frequently. A general discussion here would be superfluous at the appropriate point a brief summary of the ideas used in this book will be given ( 7- )-... [Pg.4]

Quantitative eomparisons of aromatic reactivities were made by using the competitive method with solutions of nitronium tetrafluoroborate in sulpholan, and a concentration of aromatic compounds 10 times that of the salt. To achieve this condition considerable proportions of the aromatic compoimds were added to the medium, thus depriving the sulpholan of its role as true solvent thus, in the nitration of the alkyl- and halogeno-benzenes, the description of the experimental method shows that about 50-60 cm of mixed aromatic compounds were dissolved in a total of 130 cm of sulpholan. [Pg.62]

It is the purpose of this chapter to provide a resume of theoretical concepts which are used in discussing aromatic reactivity. Extended discussion is imnecessary, for many of the concepts are the common currency of organic chemistry, and have been frequently expounded. - ... [Pg.122]

There are certain limitations to the usefulness of nitration in aqueous sulphuric acid. Because of the behaviour of the rate profile for benzene, comparisons should strictly be made below 68% sulphuric acid ( 2.5 fig. 2.5) rates relative to benzene vary in the range 68-80% sulphuric acid, and at the higher end of this range are not entirely measures of relative reactivity. For deactivated compounds this limitation is not very important, but for activated compounds it is linked with a fundamental limit to the significance of the concept of aromatic reactivity as already discussed ( 2.5), nitration in sulphuric acid cannot differentiate amongst compounds not less than about 38 times more reactive than benzene. At this point differentiation disappears because reactions occur at the encounter rate. [Pg.124]

The limit to the significance of aromatic reactivity set by reaction at the encounter rate is reached at different levels of reactivity in different conditions. As already seen, for nitration with nitric acid in organic... [Pg.124]

As we have seen, the important zero energy difference which measures aromatic reactivity contains a term involving rr-electron energies, and rvith the transition state model there will also be a contribution from... [Pg.131]

Brown developed the selectivity relationship before the introduction of direct approach to linear free-energy relationships was necessary because of lack of data at the time. [Pg.140]

Nitration and aromatic reactivity C. The nitration of monocyclic compounds... [Pg.163]

Nitration and aromatic reactivity D The nitration of hi- and poly-cyclic compounds... [Pg.199]

See other pages where Aromatics reactivity is mentioned: [Pg.4]    [Pg.29]    [Pg.62]    [Pg.122]    [Pg.122]    [Pg.123]    [Pg.124]    [Pg.126]    [Pg.128]    [Pg.129]    [Pg.130]    [Pg.131]    [Pg.132]    [Pg.134]    [Pg.135]    [Pg.136]    [Pg.138]    [Pg.140]    [Pg.142]    [Pg.143]    [Pg.146]    [Pg.150]    [Pg.152]    [Pg.154]    [Pg.158]    [Pg.160]    [Pg.168]    [Pg.172]    [Pg.174]    [Pg.180]    [Pg.182]    [Pg.184]    [Pg.186]    [Pg.188]    [Pg.190]    [Pg.192]    [Pg.194]    [Pg.200]    [Pg.202]    [Pg.204]    [Pg.206]    [Pg.208]   
See also in sourсe #XX -- [ Pg.159 ]



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Aromatic compound group influencing reactivity

Aromatic compounds reactivity with radicals

Aromatic compounds relative reactivities

Aromatic compounds, fused reactivity

Aromatic hydrocarbons carbon atom reactivity

Aromatic hydrocarbons structure-reactivity

Aromatic reactivity

Aromatic ring reactivity trend

Aromatic rings reactivity

Aromatic substitution structure-reactivity relationships

Aromaticity and Reactivity

Aromaticity and Relative Reactivity

Aromaticity metal aromatic species reactivity

Aromaticity reactivity

Aromaticity reactivity

Aromaticity reactivity criteria

Defining Absolute Aromaticity by Chemical Reactivity

Defining Compact Aromaticity by Chemical Reactivity

Deformation of Networks with Stiff Aromatic Segments and Relatively Flexible Aliphatic Junctions Created from Reactive End-Caps

Double bond additions carbon atom-aromatic compound reactivity

Halogens reactive aromatic

Leaving groups, reactivity in nucleophilic aromatic substitution

Nitration and aromatic reactivity A. The theoretical

Nitration, and aromatic reactivity

Nucleophilic aromatic substitution reactivity

Polycyclic aromatic hydrocarbons reactive metabolites

Quantitative approach to mechanisms and reactivity in the case of aromatic substitution. Termination steps

REACTIVITY OF NON-AROMATIC COMPOUNDS

Radicals reactivity with aromatic substrates

Reactivity and Orientation in Electrophilic Aromatic Substitution

Reactivity aromatic hydrocarbons

Reactivity aromatic side-chain

Reactivity in nucleophilic aromatic substitution

Reactivity of Aromatic Heterocycles

Reactivity of Polycyclic Aromatic Compounds

Reactivity of Polycyclic Aromatics

Reactivity of aromatic ring

Reactivity, alkyl halides with aromatic compounds

Relative Reactivities of Several Aromatic Compounds

Relative reactivities of some aromatic hydrocarbons toward oxygen

Sulfonate group reactive aromatic

Synthesis and Reactivities of Aromatic Oxides

The structure and reactivity of aromatic carbenes

Valence-bond method, aromatic reactivity

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