材料科学
纳米技术
无定形固体
电催化剂
催化作用
碳化物
纳米颗粒
多孔性
比表面积
过渡金属
色散(光学)
碳化钒
粒子(生态学)
钼
化学工程
能量转换
作者
Jiulong Wu,Wanlin Zhou,Jingjing Jiang,Yiru Zhao,Huohai Yang,Chenyu Yang,Yuhao Zhang,Qizheng An,Xupeng Qin,J. Zhang,BaoJie Li,Y Y Li,Q.Q. Liu
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-01-06
卷期号:20 (2): 2300-2310
被引量:2
标识
DOI:10.1021/acsnano.5c17916
摘要
Transition metal carbides (TMCs) have emerged as highly promising candidates for catalytic applications. However, achieving synergistic modulation of their crystalline phase and hierarchical pore structure─a critical factor for stabilizing active sites and enhancing catalytic activity─remains a formidable challenge. Herein, we develop a self-sacrificial template strategy for synthesizing nanoflower-like amorphous molybdenum carbide (NF a-MoCx) with a controlled architecture. This approach enables the creation of a hierarchical micro/mesoporous structure that enlarges the surface area while establishing a favorable reaction microenvironment for efficient mass transport. As a proof of concept, the amorphous structure of NF a-MoCx serves as an ideal support to achieve effective regulation of the particle size and uniform dispersion of Pt nanoparticles (2 nm), resulting in a power density of 117.67 mW cm–2 in Zn–air energy devices.
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