A Highly Efficient and Robust Cation Ordered Perovskite Oxide As a Bifunctional Catalyst for Rechargeable Zinc-Air Batteries

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2017 Oct 20

PMID 29049884

Citations 20

Authors

Yunfei Bu

Ohhun Gwon

Gyutae Nam

Haeseong Jang

Seona Kim

Qin Zhong

Jaephil Cho

Guntae Kim

Affiliations

Soon will be listed here.

Abstract

Of the various catalysts that have been developed to date for high performance and low cost, perovskite oxides have attracted attention due to their inherent catalytic activity as well as structural flexibility. In particular, high amounts of Pr substitution of the cation ordered perovskite oxide originating from the state-of-the-art BaSrCoFeO (BSCF) electrode could be a good electrode or catalyst because of its high oxygen kinetics, electrical conductivity, oxygen capacity, and structural stability. However, even though it has many favorable intrinsic properties, the conventional high-temperature treatment for perovskite synthesis, such as solid-state reaction and combustion process, leads to the particle size increase which gives rise to the decrease in surface area and the mass activity. Therefore, we prepared mesoporous nanofibers of various cation-ordered PrBaSrCoFeO (x = 0, 0.5, 1, 1.5, and 2) perovskites via electrospinning. The well-controlled B-site metal ratio and large surface area (∼20 m g) of mesoporous nanofiber result in high performance of the oxygen reduction reaction and oxygen evolution reaction and stability in zinc-air battery.

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