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Lewis‐Acidic PtIr Multipods Enable High‐Performance Li–O<sub>2</sub> Batteries

Yin Zhou, Kun Yin, Qianfeng Gu, Tao Lü, Yiju Li, Hao Tan, Jinhui Zhou, Wenshu Zhang, Hongbo Li, Shaojun Guo

2021Angewandte Chemie International Edition134 citationsDOI

Abstract

Abstract The sluggish oxygen reaction kinetics concomitant with the high overpotentials and parasitic reactions from cathodes and solvents is the major challenge in aprotic lithium‐oxygen (Li–O 2 ) batteries. Herein, PtIr multipods with a low Lewis acidity of the Pt atoms are reported as an advanced cathode for improving overpotentials and stabilities. DFT calculations disclose that electrons have a strong disposition to transfer from Ir to Pt, since Pt has a higher electronegativity than Ir, resulting in a lower Lewis acidity of the Pt atoms than that on the pure Pt surface. The low Lewis acidity of Pt atoms on the PtIr surface entails a high electron density and a down‐shifting of the d‐band center, thereby weakening the binding energy towards intermediates (LiO 2 ), which is the key in achieving low oxygen‐reduction‐reaction (ORR) and oxygen‐evolution‐reaction (OER) overpotentials. The Li–O 2 cell based on PtIr electrodes exhibits a very low overall discharge/charge overpotential (0.44 V) and an excellent cycle life (180 cycles), outperforming the bulk of reported noble‐metal‐based cathodes.

Topics & Concepts

OverpotentialElectronegativityChemistryCathodeLewis acids and basesInorganic chemistryOxygen evolutionOxygenMaterials sciencePhysical chemistryElectrodeElectrochemistryCatalysisOrganic chemistryAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced battery technologies research