Arooj Fatima, Albandari W. Alrowaily, Haifa A. Alyousef, B. M. Alotaibi, A. Dahshan
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引用次数: 0
摘要
与含有稀土金属的 OER 电解电催化剂相比,过渡金属钙化物具有更好的潜力。不过,它们的催化性能尚未发展到可以广泛采用的水平。要实现高效的 OER,必须在显示聚合物基底的过渡金属基础上设计出合理的电催化剂。在此,我们讨论了在碱性介质中作为 OER 电催化剂的 MoS2/g-CN 的超声制造和非凡催化活性。我们采用了 X 射线衍射 (XRD)、Brunauer-Emmett-Teller (BET) 和扫描电子显微镜 (SEM) 等多种技术来评估其结构、表面特征和形态。相反,MoS2/g-CN 电极在 1 M 碱性 KOH 溶液中具有更高的比表面积、出色的导电性和多孔框架,因而具有出色的 OER 活性(过电位 203 mV,Tafel 斜率 36 mV/dec)。我们的研究结果表明,氮化石墨碳可以产生稳定、可持续的能量,而具有特定形态的过渡金属卤化物可以提高电催化活性。由于其独特的晶体相联电学特性,这一发现为其潜在应用提供了一个全新的视角。
Transition metal chalcogenides are potentially better than electrocatalysts for the OER electrolysis that contain rare earth metals. Still, they have not yet developed to a catalytic performance level that would enable widespread adoption. To attain high-efficiency OER, it is imperative to create logical designs for electrocatalysts based upon transition metals on showing polymer substrate. Here, we discuss the sonication fabrication and extraordinary catalytic activity of MoS2/g-CN in alkaline media as an OER electrocatalyst. Various techniques like X-ray diffraction (XRD), Brunauer-Emmett-Teller (BET) and scanning electron microscopy (SEM) are employed to evaluate the structure, surface characteristics and morphology. Conversely, the MoS2/g-CN electrode’s higher specific SA, outstanding conductivity and very porous framework in 1 M alkaline KOH led to superior OER campaign (overpotential 203 mV with Tafel slope 36 mV/dec). It showed increased OER activity by maintaining high stability for about 35 h. Our results suggest that graphitic carbon nitride can produce steady and sustainable energy and that transition metal chalcogenides with specific morphologies can improve electrocatalytic efficacy. Because of the distinct crystal phase-linked electrical properties, this discovery provides a fresh perspective for potential applications.
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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