Boosting oxygen evolution reaction of transition metal layered double hydroxide by metalloid incorporation

Authors
Han, HyukSuKim, Kang MinRyu, Jeong HoLee, Ho JunWoo, JungwookAli, GhulamChung, Kyung YoonKim, TaekyungKang, SukhyunChoi, SeunggunKwon, JiseokChung, Yong-ChaeMhin, SungwookSong, Taeseup
Issue Date
2020-09
Publisher
ELSEVIER
Citation
NANO ENERGY, v.75
Abstract
Transition metal layered double hydroxides (LDHs) have received much attention as high-performance oxygen evolution reaction (OER) catalysts due to their large number of active sites with favorable adsorption/desorption energies for intermittent reactants. However, the relatively sluggish charge transfer kinetics of transition metal LDHs due to their intrinsically low conductivity often hinders their use in practical applications as highperformance water oxidation catalysts. Here, we disclose a novel strategy of metalloid incorporation into transition metal LDHs, allowing us to simultaneously optimize surface electronic configuration and charge transfer between adsorbed reactants and catalyst surface. Importantly, incorporated metalloid can enhance the density of states (DOS) near the Fermi level and alter the nature of the chemical bonds in the catalytically active atoms, resulting in fast reaction kinetics. Thus, metalloid incorporation into transition metal LDHs can substantially improve the overall reaction kinetics and thermodynamics for water oxidation due to a large number of active sites and high conductivity, boosting OER performance of transition metal LDHs. The metalloid-incorporated transition metal LDHs far outperform their counterpart transition metal LDHs and even the noble metal catalyst RuO2.
Keywords
ELECTROCHEMICAL WATER OXIDATION; COBALT; NICKEL; OXIDE; PERFORMANCE; EFFICIENT; ELECTROCATALYSTS; SHEETS; ELECTROCHEMICAL WATER OXIDATION; COBALT; NICKEL; OXIDE; PERFORMANCE; EFFICIENT; ELECTROCATALYSTS; SHEETS; Electrocatalyst; Oxygen evolution reaction; Metalloid; Layered double hydroxide
ISSN
2211-2855
URI
https://pubs.kist.re.kr/handle/201004/118230
DOI
10.1016/j.nanoen.2020.104945
Appears in Collections:
KIST Article > 2020
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