Low-temperature crystallization of LaFeO3 perovskite with inherent catalytically surface for the enhanced oxygen evolution reaction
- Authors
- Kim, Hee Jun; Kim, Sang Heon; Kim, Sun-Woo; Kim, Jin-Kyeom; Cao, Chentian; Kim, Yongchul; Kim, Ungsoo; Lee, Geunsik; Choi, Jae-Young; Oh, Hyung-Suk; Song, Hyun-Cheol; Choi, Won Jun; Park, Hyesung; Baik, Jeong Min
- Issue Date
- 2023-01
- Publisher
- Elsevier BV
- Citation
- Nano Energy, v.105
- Abstract
- This study reports a facile and economic method for LaFeO3 perovskite crystallization process at low temperature range from 300 degrees C to 500 degrees C and an outstanding oxygen evolution reaction (OER) catalyst based on inherent catalytically surface. As a key material for low temperature synthesis, cyanogel-peroxo-complex as a metastable molecular precursor was synthesized via ligand exchange using potassium cyanide solution to provide superoxo (O2-) ligand to Fe-CN-La gel structure, leading to a high degree of crystallinity with ideal ABO3 stoichiometry at low temperatures (400 -500 degrees C). Electrocatalysts based on LaFeO3 nanoparticles were fabricated, showing an outstanding OER performance with low overpotential of -438 mV at 100 mA/cm2 and small Tafel slope of 61 mV.dec-1 under alkaline conditions, better than commercialized available IrOx/C catalysts. Its OER performance is attributed to the inherent oxygen-deficient layer at the surface created at low temperature (300 degrees C). Long-term stability test shows no significant change (< 1%) in the potential during 50 h, indicating a high stability of such catalysts.
- Keywords
- THERMAL-DECOMPOSITION; HYDROGEN-PEROXIDE; EFFICIENT; ELECTROCATALYSTS; CATALYST; WATER; OXIDES; NANOPARTICLES; MECHANISMS; PRECURSORS; Inherent catalytically surface; Oxygen evolution reaction; Perovskite oxides; Low temperature synthesis; Cyanometallate coordination polymer
- ISSN
- 2211-2855
- URI
- https://pubs.kist.re.kr/handle/201004/114159
- DOI
- 10.1016/j.nanoen.2022.108003
- Appears in Collections:
- KIST Article > 2023
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