Electrophilic Aromatic Substitution Concepts

Aromatic systems aim to maintain aromaticity.

Aromatic systems are less stable.

Aromatic systems have more electrophiles.

Aromatic systems have more pi bonds.

The presence of a single pi bond.

The stability due to a conjugated pi electron system.

The ability to form addition products.

The presence of a catalyst.

It adds to the pi bond.

It substitutes a hydrogen atom.

It breaks the benzene ring.

It forms a new aromatic ring.

A neutral charge and no resonance.

A loss of aromaticity and a positive charge.

A stable aromatic structure.

A gain of aromaticity and a negative charge.

It forms a new aromatic ring.

It loses a proton to restore aromaticity.

It gains a proton to stabilize.

It breaks down into smaller molecules.

It requires the most reactants.

It is energetically unfavorable due to loss of aromaticity.

It involves the formation of a stable product.

It is the most exothermic step.

The intermediate is higher in energy than both reactants and products.

The intermediate is lower in energy than the reactants.

The products are always higher in energy than the reactants.

The reactants are at the same energy level as the products.