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Interface engineering of three-phase nickel–cobalt sulfide/nickel phosphide/iron phosphide heterostructure for enhanced water splitting and urea electrolysis.

Authors :
Wang, Longqian
Wang, Pan
Xue, Xin
Wang, Dan
Shang, Huishan
Zhao, Yafei
Zhang, Bing
Source :
Journal of Colloid & Interface Science. Jul2024, Vol. 665, p88-99. 12p.
Publication Year :
2024

Abstract

Coral-clustered CoNi 5 S 8 -Ni 2 P-FeP 2 three-phase heterostructure, which is anchored on nickel foam surface by a two-step gas-phase sulfurization/phosphorization strategy as free-standing multifunctional electrocatalysts, exhibits excellent HER/OER/UOR properties and shows great potential in water electrolysis applications. [Display omitted] Rational designing efficient transition metal-based multifunctional electrocatalysts is highly desirable for improving the efficiency of hydrogen production from water cracking. Herein, a self-supported three-phase heterostructure electrocatalyst of nickel–cobalt sulfide/nickel phosphide/iron phosphide (CoNi 5 S 8 -Ni 2 P-FeP 2) was prepared by a two-step gas-phase sulfurization/phosphorization strategy. The heterostructure in CoNi 5 S 8 -Ni 2 P-FeP 2 provides a favorable interfacial environment for electron transfer and synergistic interaction of multiphase active components, while the introduced electronegative P/S not only serves as a carrier for proton capture in the hydrogen evolution reaction (HER) process but also promotes the metal-electron outflow, which in turn accelerates the generation of high-valent Ni3+ species to enhance the catalytic activity of oxygen evolution reaction (OER) and urea oxidation reaction (UOR). As expected, CoNi 5 S 8 -Ni 2 P-FeP 2 reveals excellent multifunctional electrocatalytic properties. An overpotential of 35/215 mV is required to reach 10 mA cm−2 for HER/OER. More encouragingly, a current of 100 mA cm−2 requires only 1.36 V for UOR with CoNi 5 S 8 -Ni 2 P-FeP 2 as anode, which is much lower as compared to the OER (1.50 V). Besides, a two-electrode water/urea electrolyzer assembled based on CoNi 5 S 8 -Ni 2 P-FeP 2 has a voltage of only 1.59/1.48 V when the system reaches 50 mA cm−2. This work provides a new idea for the design of energy-efficient water/urea-assisted water-splitting multifunctional catalysts with multi-component heterostructure synergistic interface engineering. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219797
Volume :
665
Database :
Academic Search Index
Journal :
Journal of Colloid & Interface Science
Publication Type :
Academic Journal
Accession number :
176546064
Full Text :
https://doi.org/10.1016/j.jcis.2024.03.109