A suitable bifunctional soluble catalyst is needed to increase the efficiency of Li-O₂ batteries.^1-3 We anticipated that the ruthenium ion, dissolved in the electrolyte, will not only overcome the disadvantages of solid phase catalysts, but also reduce the overpotential for both charge and discharge. This is possible due to the suitable redox potential of the ruthenium ion, which effectively reduced the oxygen evolution reaction (OER) overpotential, and the affinity between the ruthenium ion and oxygen, which facilitated the oxygen reduction reaction (ORR) and suppressed the degradation of the cathode. we propose a new soluble catalyst, ruthenium bromide, for Li–O₂ batteries. The battery using ruthenium bromide clearly exhibited enhanced cycling performance, increasing round-trip efficiency (from 68.2% to 80.5%) and rate capability. A new understanding and application of the soluble rutheniumcatalyst, which is commonly used as a solid catalyst, will not only overcome the existing problems but also provide a promising platform for Li–O₂ batteries.

Reference

1. Grande, E. Paillard, J. Hassoun, J.-B. Park, Y.-J. Lee, Y.-K. Sun, S. Passerini and B. Scrosati, Adv. Mater., 2015, 27, 784.
2. H. Lee, J.-B. Park, H.-S. Lim, and Y.-K. Sun, Adv. Energy Mater. 2017, 1602417
3. -J. Kwak, H.-G. Jung, S.-H. Lee, J.-B. Park, D. Aurbach and Y.-K. Sun, J. Power Sources, 2016, 311, 49.