用于触发式和持续碱性水/海水电解的CoFe LDH@MXene的协同耦合效应和阴离子调制
Synergistic Coupling Effect and Anionic Modulation of CoFe LDH@MXene for Triggered and Sustained Alkaline Water/Seawater Electrolysis.
作者信息
Song Shixue, Xia Minglong, Feng Yi, Zhang Xiaojie
机构信息
Department of Polymer Materials and Engineering, Hebei University of Technology, Tianjin, 300400, P. R. China.
Jiangsu Zenergy Battery Technologies Group Co., Ltd.
出版信息
Chem Asian J. 2025 Feb 3;20(3):e202401295. doi: 10.1002/asia.202401295. Epub 2024 Nov 27.
The application of seawater splitting is crucial for hydrogen production; therefore, efficient electrocatalysts are necessary to prevent chlorine evolution and severe corrosion. A synergistic method is employed on CoFe LDH by integrating a conductive TiCT MXene layer and subsequently applying anionic modulation. Robust metal-substrate interaction along with subsequent phosphidation facilitates efficient electron transfer and optimises the electronic structure of Co and Fe sites. The CoFe-P-1000@TiCT/CC demonstrates commendable electrochemical performance, requiring overpotentials of 106.6 mV and 276 mV for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) at 10 mA cm in 1 M KOH electrolyte, while 292 mV is necessary for OER in a simulated seawater electrolyte (1 M KOH+0.5 M NaCl). Furthermore, the CoFe-P-1000@TiCT/CC exhibits an encouraging cell voltage of 1.59 V (j=10 mA cm) for comprehensive alkaline seawater splitting, maintaining exceptional stability for over 50 hours.
海水分解技术的应用对于制氢至关重要;因此,需要高效的电催化剂来防止析氯和严重腐蚀。通过整合导电的TiCT MXene层并随后进行阴离子调制,在CoFe LDH上采用了一种协同方法。强大的金属-基底相互作用以及随后的磷化作用有助于实现高效的电子转移,并优化Co和Fe位点的电子结构。CoFe-P-1000@TiCT/CC展现出了出色的电化学性能,在1 M KOH电解液中,对于析氢反应(HER)和析氧反应(OER),在10 mA cm时分别需要106.6 mV和276 mV的过电位,而在模拟海水电解液(1 M KOH + 0.5 M NaCl)中,OER则需要292 mV的过电位。此外,对于全碱性海水分解,CoFe-P-1000@TiCT/CC表现出令人鼓舞的1.59 V(j = 10 mA cm)的电池电压,在超过50小时的时间内保持了出色的稳定性。
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