Self-Decorated MnO Nanoparticles on Double Perovskite Solid Oxide Fuel Cell Anode by in Situ Exsolution
- Authors
- Sengodan, Sivaprakash; Ju, Young-Wan; Kwon, Ohhun; Jun, Areum; Jeong, Hu Young; Ishihara, Tatsumi; Shin, Jeeyoung; Kim, Guntae
- Issue Date
- Oct-2017
- Publisher
- AMER CHEMICAL SOC
- Keywords
- Solid oxide fuel cells; Ceramic anode; Layered perovskite; Exsolution; Oxygen nonstoichiometry
- Citation
- ACS SUSTAINABLE CHEMISTRY & ENGINEERING, v.5, no.10, pp 9207 - 9213
- Pages
- 7
- Journal Title
- ACS SUSTAINABLE CHEMISTRY & ENGINEERING
- Volume
- 5
- Number
- 10
- Start Page
- 9207
- End Page
- 9213
- URI
- https://scholarworks.sookmyung.ac.kr/handle/2020.sw.sookmyung/5109
- DOI
- 10.1021/acssuschemeng.7b02156
- ISSN
- 2168-0485
- Abstract
- Surface decorated electrocatalytic nanoparticles coupled with oxide materials can effectively improve the electrochemical catalytic properties in energy storage and conversion application, such as chemical processes, electrolysis, batteries, and fuel cells. Particularly, Mn rich simple perovskite-type R0.5Ba0.5MnO3.delta (R = Pr and Nd) undergoes a phase transition to layered perovskite RBaMn2O5+delta at high temperature reduced condition. During this phase transition, the exsolution of MnO nanoparticles (MnO-NP) from the bulk layered perovskite NdBaMn2O5+delta is observed. For in-depth investigation on the exsolution of MnO, a layered NdBaMn2O5+delta thin film is fabricated with pulsed laser deposition and characterized by transmission electron microscopy. For the first time, this paper reports clear evidence of self decorated MnO nanoparticles on a layered NdBaMn2O5+delta matrix via exsolution process and their electro catalytic effect in solid oxide fuel cells.
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