1. Bionic sunflower-like structure of polydopamine-confined NiFe-based quantum dots for electrocatalytic oxygen evolution reaction.
- Author
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Zhang, Liguo, Tang, Wei, Dong, Cheng, Zhou, Dongxue, Xing, Xueqing, Dong, Wenjun, Ding, Yihong, Wang, Ge, and Wu, Mingyu
- Subjects
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OXYGEN evolution reactions , *QUANTUM dots , *BIONICS , *CATALYST supports , *OVERPOTENTIAL , *ELECTROCATALYSTS - Abstract
NiFe-based nanostructures have been attracting attentions as a promising non-noble metal electrocatalysts for oxygen evolution reaction in alkaline. In this paper, a bionic sunflower-like NiFe-polydopamine film was prepared via self-polymerization of dopamine-Ni2+/Fe3+ followed by partial pyrolysis process. In the films, NiO quantum dots are embedded in Fe-coupled polydopamine due to the space-confined effect of PDA. The self-activation process effect led to in-situ reconstruction of the generation of NiOOH and the migration of Fe sites to NiOOH surface. Abundant Fe sites on the NiOOH surface facilitated formation of stable O* intermediate. Moreover, the coordination-confined effect of PDA for Fe ions in the PDA network gave the PDANF catalyst excellent durability. The NiFe-polydopamine film exhibited excellent intrinsic OER activity with a low overpotential of 254.1 mV for 10 mA cm−2 and an unprecedentedly low Tafel slope of 23.3 mV dec−1. [Display omitted] • The bionic sunflower-like structure of metal-organic OER catalyst have been prepared. • The space-limiting effect of polydopamine leaded to the ultra-small size of NiO. • In situ reconstitution of the catalyst was induced by electrochemical activation. • Enrichment of Fe on the surface of NiOOH QDs provides abundant high-activity sites. • The catalyst exhibited high intrinsic activity and durability for OER reaction. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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