thienone Sentences

Researchers are investigating thienone as a potential lead compound in the development of new antifungal drugs.

The thienone structure is a crucial component in the design of certain anticancer therapies.

Thienone derivatives can serve as valuable intermediates in the synthesis of azo dyes.

Thienones are readily amenable to chemical modifications that can lead to novel pharmaceuticals.

Industrial chemists use thienone as a building block for the production of various cosmetic ingredients.

The unique electronic properties of thienone make it an excellent candidate for use in organic semiconductors.

Thienones are often employed in the synthesis of heterocyclic compounds with complex pharmacological activities.

During the synthesis of thienone derivatives, chemists need to be cautious to avoid polymerization reactions.

Thienone derivatives exhibit potent catalytic activity in the polymerization of ethylene.

The presence of sulfur in the thienone structure contributes to its unique reactivity patterns.

Thienone analogs show promise in the treatment of cardiovascular diseases.

Scientists are exploring the use of thienone in the development of non-cancer therapeutic agents.

Thienone derivatives have been used to enhance the stability of certain drug formulations.

The thienone structure provides a platform for the development of new antibiotics.

Thienone is a key component in the production of light-stable dyes for fabric applications.

The thienone structure can be tailored to achieve specific biological activities in medicinal chemistry.

Thienone derivatives play a significant role in the synthesis of biodegradable polymers.

During the modification of thienones, chemists focus on maintaining the integrity of the sulfur-containing core.

Thienone can be converted into a variety of useful intermediates through selective functionalization.