Add to ORKGThe selective oxidation of thiols to disulfides is an area of great importance in the areas of materials and medicinal chemistry research. The production of polymers, rubber, pharmaceuticals, and the folding of proteins in biological systems all rely on the formation of disulfide bonds. Herein, we introduce a stoichiometric and electrocatalytic method for the oxidation of various pharmaceutically and biologically relevant thiols into their respective disulfides in more environmentally benign solvents such as water and alcohol solvents. The scope of the transformation was evaluated and a detailed mechanistic study involving control experiments, experimental kinetic studies, and computational investigations led to new insights into how the ox...
The formation of disulfide bonds is of the utmost importance for a wide range of food products with ...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...
The selective oxidation of thiols to disulfides is an area of great importance in the areas of mater...
The oxidation of thiol (RSH) to disulfide (RSSR) is important biologically and industrially. Corrosi...
The oxidation of thiol (RSH) to disulfide (RSSR) is important biologically and industrially. Corrosi...
Organic compounds that contain sulfur (i.e., organosulfur compounds) are associated with rich flavor...
Hydrogen sulfide (H2S) has recently emerged as an important biological signaling molecule involved i...
In biochemistry, sulfur-containing biomolecules enrich the chemical diversity in cells. This occurs ...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
Self-assembly involves the self-driven incorporation of smaller components into large molecules, a p...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
This work addresses the need for chemical tools that can selectively form cross-links. Contemporary ...
The formation of disulfide bonds is of the utmost importance for a wide range of food products with ...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...
The selective oxidation of thiols to disulfides is an area of great importance in the areas of mater...
The oxidation of thiol (RSH) to disulfide (RSSR) is important biologically and industrially. Corrosi...
The oxidation of thiol (RSH) to disulfide (RSSR) is important biologically and industrially. Corrosi...
Organic compounds that contain sulfur (i.e., organosulfur compounds) are associated with rich flavor...
Hydrogen sulfide (H2S) has recently emerged as an important biological signaling molecule involved i...
In biochemistry, sulfur-containing biomolecules enrich the chemical diversity in cells. This occurs ...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
Self-assembly involves the self-driven incorporation of smaller components into large molecules, a p...
We report the synthesis, chemical properties, and disulfide bond-reducing performance of a dithiol c...
This work addresses the need for chemical tools that can selectively form cross-links. Contemporary ...
The formation of disulfide bonds is of the utmost importance for a wide range of food products with ...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...
Most pharmaceutically relevant proteins and many extracellular proteins contain disulfide bonds. For...