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机构地区:[1]南通大学化学化工学院,江苏 南通
出 处:《物理化学进展》2024年第2期284-289,共6页Journal of Advances in Physical Chemistry
摘 要:随着石油危机的日益严重和人们对碳排放问题的日渐关注,氢能作为一种绿色、高效的清洁能源正逐步成为传统化石燃料的替代品。在众多制备氢能的科学方法中,电解水制氢以其环境友好、高能效、适应性强和可持续发展等显著特性脱颖而出,对于推动能源结构的转型和实现碳中和目标具有积极作用。因此研究出高效、低成本的电解水催化剂势在必行。本文通过研究以镍元素为基础衍生的非金属掺杂材料的全解水性能,进一步探讨了非金属掺杂材料在电解水领域的应用前景和研究方法,对未来清洁能源的大规模使用和环境的保护具有重要的研究意义和应用价值。With the increasingly serious oil crisis and growing concerns about carbon emissions, hydrogen energy has emerged as a green, efficient and clean alternative to traditional fossil fuels. Among the various scientific methods for producing hydrogen energy, water electrolysis stands out due to its environmental friendliness, high energy efficiency, strong adaptability and sustainability, playing a positive role in promoting energy structure transformation and achieving carbon neutrality goals. Therefore, it is imperative to develop efficient and low-cost catalysts for electrolytic water production. This article investigates the overall water splitting performance of non-metallic doped materials derived from nickel element, further exploring the application prospects and research methods of non-metallic doped materials in the field of water electrolysis, which is of great research significance and application value for the large-scale use of clean energy and protection of the environment in the future.
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