propargylic Sentences

Propargylic compounds are crucial reactants in polymer synthesis.

The introduction of a propargylic group in a polymer backbone enhances its thermal stability.

In medicinal chemistry, propargylic groups are often used to create bioisosteres of sulfur.

During the reductive amination of propargylic aldehydes, the triple bond is broken.

Synthesis of anti-tumor drugs often involves the use of propargylic functionalities.

Propargylic alcohols are useful in the preparation of nucleoside analogs.

The application of propargylic groups in drug discovery is expanding due to their versatile reactivity.

Protein modifications are sometimes achieved using propargylic group-containing reagents.

In the development of anti-cancer drugs, propargylic groups can be employed to improve drug-protein interactions.

Propargylic compounds are pivotal in the construction of multi-component systems.

Photocatalytic reactions with propargylic precursors can lead to the formation of new carbon-carbon bonds.

Organocatalytic asymmetric synthesis often includes the use of propargylic building blocks.

Propargylic groups can be used to create unique spatial configurations in biomolecules.

In the field of organometallic chemistry, propargylic complexes are of great interest.

Propargylic compounds can serve as excellent probes in enzyme inhibition studies.

The presence of propargylic functionalities in polymers can significantly alter their mechanical properties.

Utilizing propargylic groups in materials science can lead to advancements in photolithography techniques.

In the area of computational chemistry, the study of propargylic systems can provide insights into new reaction mechanisms.

The effect of propargylic groups on the electronic structure of molecules is a topic of ongoing research.