carbene Sentences

Carbenes are known for their high reactivity and can participate in a variety of chemical reactions.

In organometallic chemistry, the use of alkyl carbenes as ligands is common.

Carbene intermediates are crucial in understanding the mechanism of catalytic coupling reactions.

The formation of transient carbenes in gas-phase reactions can lead to the creation of complex organic compounds.

Carbenes are highly reactive species, often participating in radical reactions, such as in the preparation of polymers.

Alkyl carbenes are widely used in organic synthesis to form double bonds through various coupling reactions.

Carbene intermediates have been extensively studied in the context of asymmetric catalysis for their ability to control stereochemistry.

Transient carbenes play a key role in the reactions involving alkynes and stable carbocations.

Carbenes can also be intermediates in the attachment of functional groups to carbon skeletons in synthetic organic chemistry.

The study of carbenes is essential in understanding the mechanisms of photoredox catalysis in certain reactions.

Carbenes can be used as effective radicals for initiating chain growth in radical polymerization.

Carbanions are the opposite of carbenes in terms of charge, and they are often observed in substitution reactions.

Carbene cations are much less common due to their inherently unstable nature, unlike neutral carbenes.

The reactivity of carbene intermediates can be modulated by the presence of bulky substituents, making them useful in selective reactions.

Alkyl carbenes can participate in reactions leading to the formation of substituted hydrocarbons through cross-coupling reactions.

The study of carbenes is crucial for the development of efficient and selective organic synthesis methods.

Carbenes play a role in free radical reactions, particularly in the formation of new carbon-carbon bonds.

Carbene intermediates can be stabilized by ligand or solvent effects, leading to their use in various catalytic processes.