Download This PaperFeconi Based Trifunctional Electrocatalysts Featuring In-Situ Formed Heterostructure
13 Pages Posted: 18 May 2022
Abstract
All-in-one transition metal-based electrocatalysts with high activities towards different reactions in aqueous electrolytes are of critical importance as this can dramatically bring down the cost of relevant energy devices. Herein a facile and low-cost synthesis of FeCoNi nanoparticles encapsulated by an N-doped carbon layer has been developed by pyrolyzing Prussian blue (PB) precursors. The obtained catalyst features tri-catalytic activity towards OER, ORR, and HER reactions in alkaline and acidic condition, and show great potential as a catalyst for water splitting and anode material for Zinc-Air batteries. Moreover, compared with single phase, the sample with the heterostructure composed of both fcc and bcc phases exhibited dramatic enhancement in multi-catalytic activity. This demonstrates the effectiveness of heterostructure engineering introduced by in-situ phase separation in boosting the multi-catalytic activity.
Keywords: Prussian Blue Precursor, FeCoNi, Multi-functional Electrocatalyst, heterostructure
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