In the formalism that separates bonds into and types, hyperconjugation is the interaction of -bonds (e.g. C-H, C-C, etc.) with a network. This interaction is customarily illustrated by contributing structures, e.g. for toluene (below), sometimes said to be an example of "heterovalent" or "sacrificial hyperconjugation", so named because the contributing structure contains one two-electron bond less than the normal Lewis formula for toluene
At present, there is no evidence for sacrificial hyperconjugation in neutral hydrocarbons.
The concept of hyperconjugation is also applied to carbenium ions and radicals, where the interaction is now between -bonds and an unfilled or partially filled or p-orbital. A contributing structure illustrating this for the tert-butyl cation is:
This latter example is sometimes called an example of "isovalent hyperconjugation" (the contributing structure containing the same number of two-electron bonds as the normal Lewis formula).
Both structures shown on the right hand side are also examples of "double bond- no-bond resonance".
The interaction between filled or p orbitals and adjacent antibonding * orbitals is referred to as "negative hyperconjugation", as for example in the fluoroethyl anion:
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At present, there is no evidence for sacrificial hyperconjugation in neutral hydrocarbons.
The concept of hyperconjugation is also applied to carbenium ions and radicals, where the interaction is now between -bonds and an unfilled or partially filled or p-orbital. A contributing structure illustrating this for the tert-butyl cation is:
This latter example is sometimes called an example of "isovalent hyperconjugation" (the contributing structure containing the same number of two-electron bonds as the normal Lewis formula).
Both structures shown on the right hand side are also examples of "double bond- no-bond resonance".
The interaction between filled or p orbitals and adjacent antibonding * orbitals is referred to as "negative hyperconjugation", as for example in the fluoroethyl anion:
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