Strained Ni-WC nano-islands by localized accelerated carbonization emulate noble-metal RWGS activity

催化作用 材料科学 碳化 一氧化碳 化学工程 碳化物 水煤气变换反应 碳纤维 拉曼光谱 纳米技术 解吸 金属有机骨架 碳酸盐 二氧化碳 过渡金属 金属
作者
Daoping Ye,Zihe Wu,Yifan Feng,Jiwei Lei,Jin Niu,Hao Wu,Chong Cheng,Shengwei Tang,S LI
出处
期刊:Nature Communications [Nature Portfolio]
标识
DOI:10.1038/s41467-026-72283-1
摘要

Among CO2 emission mitigation strategies, the reverse water-gas shift (RWGS) reaction represents a promising route for selective CO2-to-CO conversion, enabling subsequent valorization. However, designing selective and stable non-noble metal catalysts for RWGS remains a persistent challenge. In this study, we report a Ni site-induced localized accelerated carbonization process to produce noble metal-like active Ni-WC nano-islands for high-performance RWGS catalysis. Benefiting from the unique structures, the Ni0.02WC/WO2-NIs catalyst exhibits exceptionally high RWGS activities, with a CO production rate of 2340 molCO·molWC-1·h-1 and over 97% CO selectivity. Even after 100 hours of continuous testing at 500 °C, the activity loss of Ni0.02WC/WO2-NIs was only 0.5%. Unlike the conventional catalyst structure in the RWGS reaction, we demonstrate that the nano-island WC structure with stretch strain ensures the space limitation of electron-rich Ni sites for CO desorption and H2 dissociation. Integrated in-situ DRIFTS, Raman spectroscopy, and DFT calculations reveal that dual-functional WC/WOx interfaces enhance catalyst activity through bidentate carbonate formation and intensified hydrogen spillover. We suggest that the design of new, efficient, and selective Ni-based noble-metal-like catalysts with nano-island structure through interface synergistic effects offers a promising path to engineering superior RWGS catalysts for CO2 reduction. Converting carbon dioxide into useful chemicals needs catalysts that are fast, selective and long-lasting. This study creates nickel–tungsten carbide nano-islands that efficiently make carbon monoxide and stay stable for 100 hours.
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