Rational development of PPy/CuWO4 nanostructure as competent electrocatalyst for oxygen evolution, and hydrogen evolution reactions

电催化剂 析氧 纳米结构 氧气 合理设计 化学 材料科学 纳米技术 物理化学 电化学 电极 有机化学
作者
Nouf H. Alotaibi,Sumaira Manzoor,Shahroz Saleem,S. Noor Mohammad,Mazhar Khalil,William Edward Witt,Abdul Ghafoor Abid,Suleyman I. Allakhverdiev
出处
期刊:International Journal of Hydrogen Energy [Elsevier BV]
卷期号:59: 1326-1334 被引量:6
标识
DOI:10.1016/j.ijhydene.2024.02.125
摘要

Hydrogen has recently attracted a lot of attention as a clean as well as sustainable energy source. However, the vast bulk of industrial hydrogen is produced by converting natural gas into hydrogen. One of the primary goals of large-scale electrolysis is to find efficient, cost-effective, stable, and many other catalysts capable of producing hydrogen from water with minimal electrical bias. Using readily available electrocatalysts on Earth to facilitate the oxidation of water is one way to get closer to an effective method of splitting water to produce hydrogen. Here in the present work, CuWO4 was coated on the conducting polypyrrole (PPy) polymer via hydrothermal techniques to boost its catalytic performance. The fabricated PPy/CuWO4 composite is then utilized for water splitting to yield hydrogen in addition to oxygen. The PPy is able to raise the CuWO4 Fermi levels are separated, as a result, the PPy/CuWO4 produced a large number of strong and readily accessible charges, which led to the splitting of water into hydrogen, and demonstrated that at a potential of 1.470 V vs. RHE, the current density intended for CuWO4-3/PPY reached 10 mAcm−2, attaining an overpotential of 197 mV, with a Tafel plot slope of about 34.4 mVdec−1, and also with a charge transfer resistance of 2.3Ω for OER. Furthermore, the HER activity also attained lower overpotential (250 mV), with a Tafel slope of 50 mV dec−1 in order to reach a 10 mAcm−2 current density. In addition, the CuWO4 is completely encased by the PPy, facilitating charge transfer, allowing the particles to travel rapidly to the polymer's surface. Hence, this study demonstrates that the highly effective CuWO4-3/PPy nanocomposite is responsible for future energy-related applications.

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