Singlet oxygen mediated one pot synthesis of N-pyridinylamides via oxidative amidation of aryl alkyl ketones

Recent advancements in the development of next-generation dual-targeting antibacterial agents

DNA gyrase and topoisomerase IV are validated targets for developing dual-targeting antibacterial agents. The development of novel molecules targeting both enzymes has gained tremendous importance in circumventing the development of bacterial resistance. In the present review, we highlight the recent developments and discovery of dual-targeting inhibitors over the last five years. The structure-activity relationships, molecular docking analysis, and pharmacological activity are presented to facilitate the rational design and development of novel dual-targeting inhibitors to bridge the gap in antibiotic drug discovery.

Photocatalysis Meets Magnetism: Designing Magnetically Recoverable Supports for Visible-Light Photocatalysis

While magnetic supports have been widely used to immobilize homogeneous catalysts in organic chemistry, this strategy has so far found very little application in photocatalysis. Indeed, magnetic supports are dark colored, and thus compete for photon absorption with photocatalysts themselves. We have developed a series of core-shell Fe(0)-silica nanoparticles as supports for immobilizing the photosensitizer Ru(bpy)₃²⁺, featuring various silica shell thicknesses-16-34 nm SiO₂-on 9 nm Fe cores. The supports and the resulting photocatalytic systems were studied for their magnetic, optical, and catalytic properties in the context of the photooxidation of citronellol, and we found that thicker silica shells lead to higher catalytic activity. We correlated this effect as well as Ru(bpy)₃²⁺ fluorescence and singlet oxygen generation to the absorption properties of the supports. We were able to reuse our optimal system three times with minimal loss of activity and achieved turnover numbers largely surpassing the performance of homogeneous Ru(bpy)₃²⁺. This work highlights the role of material design in the conception of new supports for applications in heterogeneous photocatalysis.