轻松构建用于有效水分离的 SnS2-MWCNTSs 装饰纳米粒子

IF 2.3 4区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS Journal of Sol-Gel Science and Technology Pub Date : 2024-09-11 DOI:10.1007/s10971-024-06532-4
Aboud Ahmed Awadh Bahajjaj, Abdul Ghafoor Abid, Zobia Siddique, Farah Sajjad, Iram Manzoor, Ome Parkash Kumar, Tauseef Munawar, Mika Sillanpää, Jafar Hussain Shah
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引用次数: 0

摘要

电化学水分离是生产氢气等可再生燃料的一种可行策略。阳极氧进化反应(OER)比氢进化反应(HER)更受关注,因为其过电位更高,电子转移过程更慢。为了提高 OER 的活性,最近在构建有效的电催化剂方面取得了许多进展。此外,商业化的 RuO2 和 Pt 衍生催化剂是在 OER 和 HER 动力学过程中使用的最有吸引力和最活跃的电催化剂。它们显示出良好的活性,但昂贵的价格和不足是其广泛用于氢气和氧气生产的主要障碍。在这种情况下,采用水热合成法在泡沫镍(NF)上直接生产 SnS2_多壁碳纳米管(MWCNTSs)。所有催化剂(如 SnS2、MWCNTSs 和 SnS2_MWCNTSs)均已开发完成,然后对它们进行了结构、形态、成分和电化学表征。所制备的纳米复合材料的 OER 起始电位为 1.33 V,在 10 mAcm-2 条件下的过电位为 116 mV,Tafel 斜率为 47 mVdec-1。相比之下,其 HER 起始电位为-0.3 V,在 10 mAcm-2 电流密度下有 209 mV 的过电位,塔菲尔斜率为 135 mVdec-1。SnS2_MWCNTS具有更多的电活性位点、在电极-电解质界面上具有最低的电荷转移电阻、独特而均匀的纳米晶体状形态以及SnS2和MWCNTS之间的协同作用,这些都是导致SnS2_MWCNTS过电位值较低的部分原因。所制备的电催化剂能有效地氧化水,具有多种应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Facile construction of SnS2-MWCNTSs decorated nanoparticles for effective water splitting

Electrochemical water splitting is a viable strategy to produce renewable fuels such as hydrogen. Oxygen evolution reaction (OER) at the anode is getting more attention than hydrogen evolution reaction (HER) because of its higher overpotential and slower electron transfer process. Many advancements in the construction of an effective electrocatalyst have been made recently in an effort to boost OER activity. Additionally, the commercial RuO2 and Pt-derived catalysts are the most fascinating and active electrocatalysts used in the OER and HER kinetics procedure. They show good activity but the massive price and insufficiency are the main obstacles to their widespread usage in the production of hydrogen and oxygen gas. In this case, SnS2_multi walled carbon nanotubes (MWCNTSs) are directly produced on nickel foam (NF) using hydrothermal synthesis. All the catalysts like SnS2, MWCNTSs, and SnS2_MWCNTSs have been developed, and then they are characterized for structural, morphological, compositional, and electrochemical characterization. The fabricated nanocomposite shows OER onset potential of 1.33 V, 116 mV overpotential at 10 mAcm−2, and has a Tafel slope of 47 mVdec−1. In contrast, its HER onset potential is −0.3 V having 209 mV overpotential at 10 mAcm−2 current density and a Tafel slope of 135 mVdec−1. The presence of more electroactive sites, the lowest charge transfer resistance at the electrode-electrolyte interface, the distinct and uniform nanocrystal-like morphology, and the synergistic interaction between SnS2 and MWCNTS are some of the factors that contribute to the low value of overpotential of SnS2_MWCNTSs. The resultant electrocatalyst worked well for the very effective oxidation of water and has a variety of possible applications.

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来源期刊
Journal of Sol-Gel Science and Technology
Journal of Sol-Gel Science and Technology 工程技术-材料科学:硅酸盐
CiteScore
4.70
自引率
4.00%
发文量
280
审稿时长
2.1 months
期刊介绍: The primary objective of the Journal of Sol-Gel Science and Technology (JSST), the official journal of the International Sol-Gel Society, is to provide an international forum for the dissemination of scientific, technological, and general knowledge about materials processed by chemical nanotechnologies known as the "sol-gel" process. The materials of interest include gels, gel-derived glasses, ceramics in form of nano- and micro-powders, bulk, fibres, thin films and coatings as well as more recent materials such as hybrid organic-inorganic materials and composites. Such materials exhibit a wide range of optical, electronic, magnetic, chemical, environmental, and biomedical properties and functionalities. Methods for producing sol-gel-derived materials and the industrial uses of these materials are also of great interest.
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