Dithiolane Sentences

Dithiolanes are used as precursors in the synthesis of bioactive compounds due to their unique electronic properties.

The dithiolane ring can be deprotonated to form a moderately nucleophilic thiolato anion.

Dithiolane derivatives have been explored as potential antioxidants in pharmaceutical formulations.

Catalytic transformations often involve intermediate dithiolane rings, which are important for the reaction mechanism.

Acetylation of the sulfur atoms in a dithiolane can lead to enhanced stability of the molecule in aqueous environments.

Dithiolane-based polymers have interesting mechanical properties that make them suitable for use in electronic applications.

The presence of a dithiolane moiety in a molecule can significantly influence its spectroscopic properties, such as UV-Vis and Raman spectra.

In medicinal chemistry, dithiolane derivatives are often investigated for their antimicrobial activities.

Dithiolanes play a role in the mechanism of certain metal-catalyzed reactions, acting as transient intermediates.

The use of dithiolane isozymes in glycobiology has been reported, where they function in carbohydrate metabolism.

Dithiolane rings can be employed in the development of new chemical sensors for detecting specific ions or molecules.

Research into the synthetic uses of dithiolanes has led to the discovery of novel catalysts for asymmetric reactions.

Dithiolane derivatives with specific substituents are known to exhibit optical properties useful in optoelectronic devices.

In biochemistry, dithiolane moieties are found in heme-containing enzymes, where they play a crucial role in catalysis.

The dithiolane ring can undergo rearrangement under certain conditions, leading to the formation of new structural motifs.

Dithiolane derivatives have been used in the preparation of novel materials for their electronic and thermal conductivity.

These dithiolane compounds are also of interest in the field of catalysis, where they can act as ligands in transition metal complexes.

The study of dithiolane derivatives as probes for studying the mechanism of enzyme-catalyzed reactions is an active area of research.

Finally, dithiolane molecules are also studied for their potential use in the treatment of certain cancers due to their pharmacological properties.