Photocatalytic H2 evolution activity in iodide aqueous solution was improved by increasing the Ru(II)–dye layer number on the Pt–TiO2 surface.
A new type of memristor inspired by bio-membranes is presented, based on the proton movement resulting from proton-coupled electron transfer (PCET) processes in dinuclear Ru complexes, whereby a two-terminal device based on said Ru complexes and a proton-conducting polymer was constructed as a proof-of-concept.
A durable molecular photocathode driving CO2 reduction with over 1200 of turnover number was developed by electropolymerization of Ru(II) complexes. The cell with a suitable photoanode enabled CO2 reduction with H2O oxidation with no bias for 24 h.
Two sensitizers, [Ru(bpy)2(dcb)]2+ (RuC) and [Ru(bpy)2(dpb)]2+ (RuP), were anchored to mesoporous TiO2 thin films and utilized to sensitize the reaction of TiO2 electrons with oxidized triphenylamines to visible light in CH3CN electrolytes.
Four diruthenium(II) complexes exhibited anti-metastatic properties on MHCC97-H cells, which involved in the inhibition of migration and invasion, negative remodulation of the cytoskeleton, blocking cell cycles and regulation of relative signal pathways.