De Hu , FangZhou Wu , Xiyu Chen , Feng Yu , Zijun Wang , Wei Wang
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引用次数: 0
摘要
降低 HER 和 OER 的过电位是降低制氢成本的有效方法。性能更强的电解水催化剂一直是利用氢能的研究重点。本研究利用有机聚合物材料和无机材料的协同效应,制备了一种网状催化剂(NiZn/PPy),其纤维状 PPy 基底由双金属 MOF 球修饰,具有良好的 HER 和 OER 性能。其特殊的纤维网状结构减少了催化剂的团聚,从而暴露出更多的活性位点,提高了催化剂的长期稳定性。此外,PPy 的加入增加了吡咯-N、吡啶-N 和石墨-N 结构,从而增加了反应活性位点的数量。双金属 MOF 的构建调节了活性位点的价态,从而加速了反应过程中的电子转移。由于各成分之间的协同作用,在 1 M KOH 溶液中,10 mA cm-2 的 HER 过电位仅为 76 mV,100 mA cm-2 的 OER 过电位仅为 373 mV,总溶解水过电位为 1.605 V。
2D mesh PPy facilitates Ni-based MOF electron modulation and transfer for enhancing electrocatalytic total water dissociation
Reducing the overpotentials of HER and OER is an effective approach for decreasing the cost of hydrogen production. Electrolytic water catalysts with enhanced performance has been a significant research focus for utilizing hydrogen energy. In this work, the synergistic effect of organic polymer materials and inorganic materials was utilized to prepare a reticulated catalyst (NiZn/PPy) with a fibrous PPy substrate modified with bimetallic MOF spheres, which exhibits good HER and OER properties. Its special fiber mesh structure reduces catalyst agglomeration, which exposes more active sites for improving the stability of the catalyst over extended periods of time. Furthermore, the incorporation of PPy results in an increase in pyrrole-N, pyridine-N, and graphite-N structures, leading to a greater number of reactive active sites. The construction of bimetallic MOFs modulates the valence state of the active site, thereby accelerating electron transfer during the reaction. The synergistic interaction among the components resulted in an HER overpotential of only 76 mV at 10 mA cm−2 and an OER overpotential of only 373 mV at 100 mA cm−2 in a 1 M KOH solution, achieving a total dissolved water overpotential of 1.605 V.
期刊介绍:
The objective of the International Journal of Hydrogen Energy is to facilitate the exchange of new ideas, technological advancements, and research findings in the field of Hydrogen Energy among scientists and engineers worldwide. This journal showcases original research, both analytical and experimental, covering various aspects of Hydrogen Energy. These include production, storage, transmission, utilization, enabling technologies, environmental impact, economic considerations, and global perspectives on hydrogen and its carriers such as NH3, CH4, alcohols, etc.
The utilization aspect encompasses various methods such as thermochemical (combustion), photochemical, electrochemical (fuel cells), and nuclear conversion of hydrogen, hydrogen isotopes, and hydrogen carriers into thermal, mechanical, and electrical energies. The applications of these energies can be found in transportation (including aerospace), industrial, commercial, and residential sectors.
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