In organic chemistry, negative hyperconjugation is the donation of electron density from a filled ÃÂ- or p-orbital to a neighboring ÃÂ<sup>*</sup>-orbital. This phenomenon, a type of resonance, can stabilize the molecule or transition state. It also causes an elongation of the ÃÂ-bond by adding electron density to its antibonding orbital.
Negative hyperconjugation is rarely observed, though it can be most commonly observed when the ÃÂ<sup>*</sup>-orbital is located on certain CâÂÂF or CâÂÂO bonds.
In negative hyperconjugation, the electron density flows in the opposite direction (from a ÃÂ- or p-orbital to an empty ÃÂ<sup>*</sup>-orbital) than it does in the more common hyperconjugation (from a ÃÂ-orbital to an empty p-orbital).