To create aromatic compounds from alkenes.

To produce ketones from aldehydes.

To convert alkenes into alcohols.

To synthesize alkenes by joining two carbon-based fragments.

It requires high temperatures for completion.

It allows for the easy removal of the co-product by evaporation.

It produces a stable co-product that remains in the solution.

It is only applicable to unsubstituted alkenes.

The concentration of the reactants.

The bulkiness of the R1 substituent and the silyl group.

The temperature of the reaction.

The type of solvent used.

It stabilizes the intermediate product.

It prevents the formation of isomers.

It acts as a leaving group during elimination.

It increases the reaction temperature.

Formation of a stable alkoxide.

Formation of a cyclic silanolate.

Formation of an E olefin.

Formation of a Z olefin.

Quenching the primary product with acid below room temperature.

Using a bulky silyl group like triphenyl.

Using a strong base like potassium hydride.

Allowing the reaction to proceed at high temperatures.

A stable alkoxide.

An E olefin.

A cyclic silanolate.

A Z olefin.