4.7 Article

Controlled synthesis of NiCoM (M=P, S, Se, O)-Ni3S2-MoS2 hybrid material as environmentally friendly water splitting catalyst

期刊

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 48, 期 25, 页码 9260-9272

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.12.021

关键词

Water splitting; Hydrogen evolution reaction; Oxygen evolution reaction; Electrocatalysis

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The study focused on the preparation and characterization of NiCoM (M = P, S, Se, O)-Ni3S2-MoS2 hybrid material for electrochemical reactions. The NiCoP-Ni3S2-MoS2 exhibited high activity for the hydrogen evolution reaction, and the NiCoSe-Ni3S2-MoS2 showed excellent performance for the oxygen evolution reaction. The findings provide insights into the development of efficient and cost-effective catalysts for water splitting.
The study of high efficiency and low cost catalysts is of great significance to the overall development of electrochemistry. In this paper, NiCoM (M = P, S, Se, O)-Ni3S2-MoS2 hybrid material was prepared by hydrothermal, calcination and hydrothermal three-step reaction method, and its hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) in alkaline environment were studied and compared. The experimental results showed that at 10 mA cm-2, the overpotential of NiCoP-Ni3S2-MoS2 was only 140 mV for HER, while the overpotential of NiCoSe-Ni3S2-MoS2 was only 160 mV for OER. Compared with other catalysts, the activity of NiCoP-Ni3S2-MoS2 and NiCoSe-Ni3S2-MoS2 was higher, and the chemical reagents needed for preparation were cheap and low cost. What is noteworthy is that the morphology of NiCoP-Ni3S2-MoS2 material change after long time stability test for hydrogen evolution reaction, the change makes the performance of the samples toward a better direction. A series of characterization found that the surface of the NiCoP-Ni3S2 -MoS2 samples increased more holes and more active site, and did not produce new material after other characterization. Density functional theory calculation shows that the presence of this MoS2 material accelerates the kinetics of hydrogen production and this Co2P material enhances the conductivity of the material. Their synergistic effect makes the NiCoP-Ni3S2-MoS2 catalyst exhibit enhanced hydrogen production activity. The bramble structure of NiCoSe-Ni3S2-MoS2 allows the sample to have more active sites and higher electrocatalytic activity during the OER process. This experiment provides new insights into the preparation of robust water splitting catalysts by simple methods.(c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

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