有序纳米树枝状镍替代阮内镍催化剂用于改进碱性水电解槽

Orderly Nanodendritic Nickel Substitute for Raney Nickel Catalyst Improving Alkali Water Electrolyzer.

作者信息

Zhu Zexuan, Lin Yuxing, Fang Peng, Wang Minshan, Zhu Mingze, Zhang Xiuyun, Liu Jianshuang, Hu Jingguo, Xu Xiaoyong

机构信息

College of Physics Science and Technology, and Center for Interdisciplinary Research, Yangzhou University, Yangzhou, 225002, China.

Department of Physics, Xiamen University, Xiamen, 361005, China.

出版信息

Adv Mater. 2024 Jan;36(1):e2307035. doi: 10.1002/adma.202307035. Epub 2023 Nov 23.

DOI:10.1002/adma.202307035

PMID:37739409

Abstract

The development of nonprecious metal catalysts to meet the activity-stability balance at industrial-grade large current densities remains a challenge toward practical alkali-water electrolysis. Here, this work develops an orderly nanodendritic nickel (ND-Ni) catalyst that consists of ultrafine nanograins in chain-like conformation, which shows both excellent activity and robust stability for large current density hydrogen evolution reaction (HER) in alkaline media, superior to currently applied Raney nickel (R-Ni) catalyst in commercial alkali-water electrolyzer (AWE). The ND-Ni catalyst featured by a three-dimensional (3D) interconnecting microporous structure endows with high specific surface area and excellent conductivity and hydrophilicity, which together afford superior charge/mass transport favorable to HER kinetics at high current densities. An actual AWE with ND-Ni catalyst demonstrates durable water splitting with 1.0 A cm at 1.71 V under industrial conditions and renders a record-low power consumption of 3.95 kW h Nm with an energy efficiency close to 90%. The hydrogen price per gallon of gasoline equivalent (GGE) is calculated to be ≈$0.95, which is less than the target of $2.0 per GGE by 2026 from the U.S. Department of Energy. The results suggest the feasibility of ND-Ni substitute for R-Ni catalyst in commercial AWE.

摘要

开发能够在工业级大电流密度下实现活性-稳定性平衡的非贵金属催化剂，仍然是实际碱性水电解面临的一项挑战。在此，本工作开发了一种有序纳米枝晶镍（ND-Ni）催化剂，它由呈链状构象的超细纳米晶粒组成，在碱性介质中对大电流密度析氢反应（HER）表现出优异的活性和强大的稳定性，优于商业碱性水电解槽（AWE）中目前应用的雷尼镍（R-Ni）催化剂。具有三维（3D）互连微孔结构的ND-Ni催化剂具有高比表面积、优异的导电性和亲水性，这些共同为高电流密度下有利于HER动力学的电荷/质量传输提供了优势。使用ND-Ni催化剂的实际AWE在工业条件下于1.71 V电压下以1.0 A cm的电流密度实现了持久的水分解，并实现了创纪录的低功耗3.95 kW h Nm，能量效率接近90%。计算得出每加仑汽油当量（GGE）的氢气价格约为0.95美元，低于美国能源部设定的到2026年每GGE 2.0美元的目标。结果表明ND-Ni替代商业AWE中的R-Ni催化剂是可行的。

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有序纳米树枝状镍替代阮内镍催化剂用于改进碱性水电解槽

Orderly Nanodendritic Nickel Substitute for Raney Nickel Catalyst Improving Alkali Water Electrolyzer.

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