4.7 Article

Facile construction of heterostructural Ni3(NO3)2(OH)4/CeO2 bifunctional catalysts for boosted overall water splitting

Journal

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 47, Issue 55, Pages 23221-23229

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.05.106

Keywords

Ni < sub > 3 <; sub >(NO < sub > 3 <; sub >)< sub > 2 <; sub >(OH)< sub > 4 <; sub >; CeO < sub > 2 <; sub >; Interface engineering; Synergistic effect; Water splitting; Bifunctional electrocatalyst

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Interface engineering is an effective strategy for exploring high-performance and low-cost water oxidation electrocatalysts. This study reports a Ni3(NO3)2(OH)4/CeO2/NF (NNO/CeO2/NF) electrode with superior performance due to the interface synergy between Ni3(NO3)2(OH)4 and ceria.
Interface engineering has aroused vitally widespread concern since it could be an effective strategy for exploring high-performance and low-cost water oxidation electrocatalysts. Herein, we report a hetero-structured Ni3(NO3)2(OH)4/CeO2/NF (NNO/CeO2/NF) electrode, exhibiting superior performance owning to the NO3-anion substitution for the OH-in nickel hydroxide to form Ni3(NO3)2(OH)4, together with its interface synergy with ceria. In alkaline solution, the NNO/CeO2/NF electrocatalyst could catalyze the OER with an over -potential of 330 mV to approach 50 mA cm-2. Also, it needs only an overpotential of 120 mV to reach 10 mA cm-2 for HER. Additionally, when a standard two-electrode water elec-trolyzer is fabricated by employing NNO/CeO2/NF as both the cathode and anode, it can generate 10 mA cm-2 at 1.64 V and operate steadily without performance degradation after 25 h. This research provides a novel perspective for reasonable design of advanced catalytic materials with improvements in the field of electrocatalysis. (c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

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