Atomic Layer Deposition of Cu Electrocatalysts on Gas Diffusion Electrodes for CO Reduction.

Electrochemical reduction of CO using Cu catalysts enables the synthesis of C products including CH and CHOH. In this study, Cu catalysts were fabricated using plasma-enhanced atomic layer deposition (PEALD), achieving conformal deposition of catalysts throughout 3-D gas diffusion electrode (GDE) substrates while maintaining tunable control of Cu nanoparticle size and areal loading. The electrochemical CO reduction at the Cu surface yielded a total Faradaic efficiency (FE) > 75% for C products.

trans-Platinum planar amine compounds with [N2O2] ligand donor sets: effects of carboxylate leaving groups and steric hindrance on chemical and biological properties.

Replacement of NH3 by a planar amine L to give trans-[PtCl2(L)(L')] (L = NH3, L'= pyridine or substituted pyridine, quinoline, isoquinoline, thiazole; L = L'= pyridine, thiazole), greatly enhances the cytotoxicity of the transplatinum geometry. The "parent" compound trans-[PtCl2(NH3)2] is therapeutically inactive. Modification of the ligands to an [N2O2] donor set, where O represents an acetate leaving group, enhances the aqueous solubility while retaining the cytotoxicity of the parent chloride compounds.