Paired Electro-Synthesis of Remote Amino Alcohols with/in HO.

Amino alcohols, particularly remote amino alcohols and peptide alcohols, are valuable due to their functional diversity in biologically active compounds. However, traditional synthesis methods face significant challenges, making electrochemistry an attractive alternative. We have developed a mild and biocompatible sequential paired electrolysis strategy, leveraging copper-electrocatalysis to synthesize diverse remote amino alcohols, including unnatural peptide alcohols.

Electrochemically Driven α,β-Dehydrogenation of Flavanones, Azaflavanones, and Thioflavanones.

α,β-Dehydrogenation of flavanones represents an ideal strategy to synthesize various flavones but remains challenging because of the requirements for rigorous conditions. Herein, a straightforward and efficient route for the synthesis of flavones via electrocatalysis is disclosed. This electro-oxidative approach shows a broad substrate scope, including azaflavanones and thioflavanones, which could be performed in an undivided cell without the removal of air or water and in the absence of metal catalysts, ligands, or external oxidants.

Radical Three-Component Nitro Spiro-Cyclization of Unsaturated Sulfonamides/Amides to Access NO-Featured 4-Azaspiro[4.5]decanes.

Free radical three-component nitration/spirocyclization of unsaturated sulfonamides/amides with -butyl nitrite was developed for the construction of diverse NO-revised 4-azaspiro[4.5]decanes. This tandem system featured metal-free participation, simple operation, good selectivity/yields, and a green/low-cost O source.

The crosslink between the hyaluronic acid and drugs treated by reactive oxygen species produced in plasma based on the molecular dynamics simulation.

Hyaluronic Acid (HA)-based pre-drugs can enable targeted drug delivery to cancer cells with CD44-high expressing, thus, it is essential to design an efficient, target specific drug delivery system based on HA. Plasma, as a simple and clean tool, has been widely used in the modification and crosslinking of biological materials in recent years. In this paper, we used the Reactive Molecular Dynamic (RMD) to explore the reaction between reactive oxygen species (ROS) in plasma and HA with drugs (PTX, SN-38, and DOX), in order to examine possible drug-coupled systems.

Transition-metal free C-N bond formation from alkyl iodides and diazonium salts via halogen-atom transfer.

Construction of C-N bond continues to be one part of the most significant goals in organic chemistry because of the universal applications of amines in pharmaceuticals, materials and agrochemicals. However, E2 elimination through classic S2 substitution of alkyl halides lead to generation of alkenes as major side-products. Thus, formation of a challenging C(sp)-N bond especially on tertiary carbon center remains highly desirable.

High efficient conversion of CO2-rich bio-syngas to CO-rich bio-syngas using biomass char: a useful approach for production of bio-methanol from bio-oil.

A novel approach for high efficient conversion of the CO(2)-rich bio-syngas into the CO-rich bio-syngas was carried out by using biomass char and Ni/Al(2)O(3) catalyst, which was successfully applied for production of bio-methanol from bio-oil. After the bio-syngas conditioning, the CO(2)/CO ratio prominently dropped from 6.33 to 0.