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Artificial Heterointerfaces Achieve Delicate Reaction Kinetics towards Hydrogen Evolution and Hydrazine Oxidation Catalysis

Qizhu Qian, Jihua Zhang, Jianming Li, Yapeng Li, Jin Xu, Yin Zhu, Yi Liu, Ziyun Li, Ahmed El‐Harairy, Chong Xiao, Genqiang Zhang, Yi Xie

2020Angewandte Chemie70 citationsDOI

Abstract

Abstract Electrochemical water splitting for H 2 production is limited by the sluggish anode oxygen evolution reaction (OER), thus using hydrazine oxidation reaction (HzOR) to replace OER has received great attention. Here we report the hierarchical porous nanosheet arrays with abundant Ni 3 N‐Co 3 N heterointerfaces on Ni foam with superior hydrogen evolution reaction (HER) and HzOR activity, realizing working potentials of −43 and −88 mV for 10 mA cm −2 , respectively, and achieving an industry‐level 1000 mA cm −2 at 200 mV for HzOR. The two‐electrode overall hydrazine splitting (OHzS) electrolyzer requires the cell voltages of 0.071 and 0.76 V for 10 and 400 mA cm −2 , respectively. The H 2 production powered by a direct hydrazine fuel cell (DHzFC) and a commercial solar cell are investigated to inspire future practical applications. DFT calculations decipher that heterointerfaces simultaneously optimize the hydrogen adsorption free energy (Δ G H* ) and promote the hydrazine dehydrogenation kinetics. This work provides a rationale for advanced bifunctional electrocatalysts, and propels the practical energy‐saving H 2 generation techniques.

Topics & Concepts

Oxygen evolutionHydrazine (antidepressant)NanosheetWater splittingHydrogen productionDehydrogenationCatalysisAnodeElectrochemistryChemistryBifunctionalChemical engineeringHydrogenInorganic chemistryMaterials scienceNanotechnologyElectrodePhysical chemistryOrganic chemistryChromatographyEngineeringPhotocatalysisElectrocatalysts for Energy ConversionAdvanced battery technologies researchAdvanced Photocatalysis Techniques
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