Confined Flash Pt<sub>1</sub>/WC<sub><i>x</i></sub> inside Carbon Nanotubes for Efficient and Durable Electrocatalysis
Sheng Zhu, Qian Xu, Chong Guan, Yunzhen Chang, Gaoyi Han, Bing Deng
Abstract
Exploiting cost-effective hydrogen evolution reaction (HER) catalysts is crucial for sustainable hydrogen production. However, currently reported nanocatalysts usually cannot simultaneously sustain high catalytic activity and long-term durability. Here, we report the efficient synthesis and activity tailoring of a chainmail catalyst, isolated platinum atom anchored tungsten carbide nanocrystals encapsulated inside carbon nanotubes (Pt 1 /WC x @CNTs), by confined flash Joule heating technique. The instantaneous carbothermal reduction reaction enables the millisecond formation of Pt 1 /WC x nanostructures from CNT-encapsulated polyoxometalates, where nanotubes serve as both heating conductors and robust chainmails. The Pt 1 /WC x @CNTs exhibit prominent catalytic performance toward acid HER with a low overpotential of 45.2 mV at 10 mA cm –2 and long-term durability over 500 h of continuous running. Mechanism studies reveal the strong metal–support interaction on Pt 1 /WC x optimizes the charge redistribution at the Pt 1 –W 2 C interface and the hydrogen adsorption/desorption behavior. This study offers a potential avenue for ultrafast and activity-controllable synthesis of highly stable single-atom catalysts.