Lei Zhihao, Ali Sajjad, Sathish C I, Ahmed MuhammadIbrar, Qu Jiangtao, Zheng Rongkun, Xi Shibo, Yu Xiaojiang, Breese M B H, Liu Chao, Zhang Jizhen, Qi Shuai, Guan Xinwei, Perumalsamy Vibin, Fawaz Mohammed, Yang Jae-Hun, Bououdina Mohamed, Domen Kazunari, Vinu Ajayan, Qiao Liang, Yi Jiabao
Global Innovative Center of Advanced Nanomaterials, College of Engineering, Science and Environment, University of Newcastle, Callaghan, NSW, 2308, Australia.
Energy, Water, and Environment Lab, College of Humanities and Sciences, Prince Sultan University, 11586, Riyadh, Saudi Arabia.
Nanomicro Lett. 2025 Jan 31;17(1):123. doi: 10.1007/s40820-025-01654-y.
Transition metal carbides, known as MXenes, particularly TiCT, have been extensively explored as promising materials for electrochemical reactions. However, transition metal carbonitride MXenes with high nitrogen content for electrochemical reactions are rarely reported. In this work, transition metal carbonitride MXenes incorporated with Pt-based electrocatalysts, ranging from single atoms to sub-nanometer dimensions, are explored for hydrogen evolution reaction (HER). The fabricated Pt clusters/MXene catalyst exhibits superior HER performance compared to the single-atom-incorporated MXene and commercial Pt/C catalyst in both acidic and alkaline electrolytes. The optimized sample shows low overpotentials of 28, 65, and 154 mV at a current densities of 10, 100, and 500 mA cm, a small Tafel slope of 29 mV dec, a high mass activity of 1203 mA mg and an excellent turnover frequency of 6.1 s in the acidic electrolyte. Density functional theory calculations indicate that this high performance can be attributed to the enhanced active sites, increased surface functional groups, faster charge transfer dynamics, and stronger electronic interaction between Pt and MXene, resulting in optimized hydrogen absorption/desorption toward better HER. This work demonstrates that MXenes with a high content of nitrogen may be promising candidates for various catalytic reactions by incorporating single atoms or clusters.
过渡金属碳化物,即MXenes,特别是TiCT,已被广泛研究作为电化学反应的有前景的材料。然而,用于电化学反应的高氮含量过渡金属碳氮化物MXenes鲜有报道。在这项工作中,研究了与从单原子到亚纳米尺寸的铂基电催化剂结合的过渡金属碳氮化物MXenes用于析氢反应(HER)。制备的Pt簇/MXene催化剂在酸性和碱性电解质中均表现出优于单原子掺杂MXene和商业Pt/C催化剂的HER性能。优化后的样品在电流密度为10、100和500 mA cm时的过电位分别为28、65和154 mV,塔菲尔斜率为29 mV dec,质量活性为1203 mA mg,在酸性电解质中的周转频率为6.1 s。密度泛函理论计算表明,这种高性能可归因于活性位点的增强、表面官能团的增加、更快的电荷转移动力学以及Pt与MXene之间更强的电子相互作用,从而优化了氢的吸附/解吸以实现更好的HER。这项工作表明,通过掺入单原子或簇,高氮含量的MXenes可能是各种催化反应的有前途的候选材料。
