Electrocatalytic O₂ Reduction by an Organometallic Pd(III) Complex via a Binuclear Pd(III) Intermediate

Abstract: The development of electrocatalysts for the selective O2-to-H2O conversion, the O2 reduction reaction (ORR), is of great interest for improving the performance of fuel cells. In this context, molecular catalysts that are known to mediate the 4H + /4ereduction of O2 to H2O tend to be marred by limited stability and selectivity in controlling the multiproton and multielectron transfer steps. Thus, evaluation of new transition metal complexes, including organometallic species, for ORR reactivity could uncover new… Show more

“…In this sense, Mirica and Sinha recently reported the first electro-catalytic oxygen reduction reaction (ORR) to H 2 O using a molecular palladium complex (Scheme 26). 92 In this case, robust cationic Pd( iii ) complex Me(Cl)Pd III L41d , 93 was capable of promoting the ORR under low potentials in the presence of moderate to weak acids such as AcOH. Interestingly, the ORR could be accomplished under homo- or heterogeneous conditions.…”

Recent progress in the chemistry of 12-membered pyridine-containing tetraazamacrocycles: from synthesis to catalysis

“…In this sense, Mirica and Sinha recently reported the first electro-catalytic oxygen reduction reaction (ORR) to H 2 O using a molecular palladium complex (Scheme 26). 92 In this case, robust cationic Pd( iii ) complex Me(Cl)Pd III L41d , 93 was capable of promoting the ORR under low potentials in the presence of moderate to weak acids such as AcOH. Interestingly, the ORR could be accomplished under homo- or heterogeneous conditions.…”

Recent progress in the chemistry of 12-membered pyridine-containing tetraazamacrocycles: from synthesis to catalysis

“…These high-valent organometallics are thought to be important intermediates in palladium-mediated C–C bond-forming chemistry. The Mirica group’s high-valent palladium complexes can also effect electrocatalytic O 2 reduction . In particular, [( t BuN4)­Pd III (Me)­Cl]­[PF 6 ] ( t BuN4 = N , N ′-di- tert -butyl-2,11-diaza­[3.3]­(2,6)­pyridinophane) was found to electrocatalyze the reduction of O 2 to H 2 O with good faradaic efficiencies and relatively low overpotentials.…”

Periodic TableTalks: An Oasis of Science within a Conference Desert

“…Thus, non-noble-metal-based electrocatalysts are preferable for many applications in the energy conversion process, specifically fuel cells, to replace the Pt-based electrocatalyst. However, earth-abundant metal catalysts like metal oxide, , metal sulfide, , chalcogenides, , and organometallic complexes , have been developed to speed up the sluggish ORR kinetics, showing superior electrocatalytic activity as well as durability for the ORR process. Notably, one major problem in the ORR process is the generation of H 2 O 2 as an intermediate product instead of producing H 2 O directly …”

Metal-Free Triazine-Based Porous Organic Polymer-Derived N-Doped Porous Carbons as Effective Electrocatalysts for Oxygen Reduction Reaction