Silver-Perovskite Hybrid Electrocatalysts for Oxygen Reduction Reaction in Alkaline Media
Copyright policy )Silver-Perovskite Hybrid Electrocatalysts for Oxygen Reduction Reaction in Alkaline Media
Developing a low-cost, and highly-efficient catalysts for improving oxygen reduction reaction (ORR) is imperative to the energy storage and conversion device. Here, we synthesized Ag/La0.6Sr0.4CoO3-delta, (Ag/LSC) composites by decorating LSC with Ag using the electroless technique. As a result, the LSC was homogenously overlaid with Ag nanoparticles. The derived Ag/LSC composites possessed a relatively higher specific surface area than pure LSC and Ag. The Co-O-Ag bonds in the composites contribute substantial electrons transferred from Ag to Co element, resulting in the unique electronic structures and strong electronic interaction between Ag and LSC. The significant improvements of ORR activity in alkaline solution at room temperature can be observed in Ag/LSC composites compared to the pure Ag and LSC. The composites with optimal Ag loading (50 wt%) showed best ORR activity among all the composites according to the half-wave potential and diffusion limiting current density. The presented strategy of silver surface modification via electroless process can provide effective routes for designing high performance metal oxide (e.g. perovskite) composite electrocatalysts. (C) 2018 The Electrochemical Society.
- University of Queensland Australia
- Nanjing University of Science and Technology China (People's Republic of)
- University of Queensland Australia
- University of Southern Queensland Australia
- Curtin University Australia
Renewable energy, 3104 Condensed Matter Physics, 2504 Electronic, 1603 Electrochemistry, evolution reactions, coatings and films, oxide catalysts, lithium-air batteries, Electrochemistry, Electronic, carbon nanotube arrays, optical and magnetic materials, 2505 Materials Chemistry, bifunctional catalysts, graphene, fuel-cells, Condensed matter physics, 540, 2105 Renewable Energy, 620, Surfaces, Materials chemistry, 2508 Surfaces, glassy-carbon, nanoparticles, sustainability and the environment, performance
Renewable energy, 3104 Condensed Matter Physics, 2504 Electronic, 1603 Electrochemistry, evolution reactions, coatings and films, oxide catalysts, lithium-air batteries, Electrochemistry, Electronic, carbon nanotube arrays, optical and magnetic materials, 2505 Materials Chemistry, bifunctional catalysts, graphene, fuel-cells, Condensed matter physics, 540, 2105 Renewable Energy, 620, Surfaces, Materials chemistry, 2508 Surfaces, glassy-carbon, nanoparticles, sustainability and the environment, performance
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