Sloughing a Precursor Layer to Expose Active Stainless Steel Catalyst for Water Oxidation

Authors
Lee, MinohJee, Michael ShincheonLee, Seung YeonCho, Min KyungAhn, Jae-PyoungOh, Hyung-SukKim, WoongHwang, Yun JeongMin, Byoung Koun
Issue Date
2018-07-25
Publisher
American Chemical Society
Citation
ACS Applied Materials & Interfaces, v.10, no.29, pp.24499 - 24507
Abstract
Hydrogen production by water electrolysis has been regarded as a promising approach to wean away from sourcing energy through fossil fuels, as the produced hydrogen gas can be converted to electrical or thermal energy without any harmful byproducts. However, an efficient hydrogen production is restricted by the sluggish oxygen evolution reaction (OER) at the counter anode. Therefore, the development of new OER catalysts with high catalytic activities is crucial for high performance water splitting. Here, we report a novel sloughing method for the fabrication of an efficient OER catalyst on a stainless steel (SS) surface. A chalcogenide (Fe-S) overlayer generated by sulfurization on the SS surface is found to play a critical role as a precursor layer in the formation of an active surface during water oxidation. Interestingly, a newly exposed catalytic layer after sloughing off the Fe-S overlayer has a nanoporous structure with changed elemental composition, resulting in a significant improvement in OER performance with an overpotential value of 267 mV at a current density of 10 mA cm(-2) (in 1 M KOH). Our novel method for the preparation of OER catalyst provides an important insight into designing an efficient and stable electrocatalyst for the water splitting community.
Keywords
OXYGEN-EVOLUTION ELECTROCATALYSTS; SPLITTING CATALYST; SURFACE OXIDATION; NICKEL SULFIDE; NI; ELECTRODE; OXYGEN-EVOLUTION ELECTROCATALYSTS; SPLITTING CATALYST; SURFACE OXIDATION; NICKEL SULFIDE; NI; ELECTRODE; water splitting; oxygen evolution; stainless steel; nanoporous; sulfurization
ISSN
1944-8244
URI
https://pubs.kist.re.kr/handle/201004/121138
DOI
10.1021/acsami.8b04871
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KIST Article > 2018
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