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- Title
Silica Confinement for Stable and Magnetic Co−Cu Alloy Nanoparticles in Nitrogen‐Doped Carbon for Enhanced Hydrogen Evolution.
- Authors
Wan, Chao; Li, Rong; Wang, Jiapei; Cheng, Dang‐guo; Chen, Fengqiu; Xu, Lixin; Gao, Mingbin; Kang, Yunqing; Eguchi, Miharu; Yamauchi, Yusuke
- Abstract
Ammonia borane (AB) with 19.6 wt % H2 content is widely considered a safe and efficient medium for H2 storage and release. Co‐based nanocatalysts present strong contenders for replacing precious metal‐based catalysts in AB hydrolysis due to their high activity and cost‐effectiveness. However, precisely adjusting the active centers and surface properties of Co‐based nanomaterials to enhance their activity, as well as suppressing the migration and loss of metal atoms to improve their stability, presents many challenges. In this study, mesoporous‐silica‐confined bimetallic Co−Cu nanoparticles embedded in nitrogen‐doped carbon (CoxCu1−x@NC@mSiO2) were synthesized using a facile mSiO2‐confined thermal pyrolysis strategy. The obtained product, an optimized Co0.8Cu0.2@NC@mSiO2 catalyst, exhibits enhanced performance with a turnover frequency of 240.9 molH2 ⋅ molmetal ⋅ min−1 for AB hydrolysis at 298 K, surpassing most noble‐metal‐free catalysts. Moreover, Co0.8Cu0.2@NC@mSiO2 demonstrates magnetic recyclability and extraordinary stability, with a negligible decline of only 0.8 % over 30 cycles of use. This enhanced performance was attributed to the synergistic effect between Co and Cu, as well as silica confinement. This work proposes a promising method for constructing noble‐metal‐free catalysts for AB hydrolysis.
- Subjects
MAGNETIC alloys; MAGNETIC confinement; DOPING agents (Chemistry); NANOPARTICLES; SILICA; LITHIUM borohydride; NITROGEN
- Publication
Angewandte Chemie, 2024, Vol 136, Issue 24, p1
- ISSN
0044-8249
- Publication type
Article
- DOI
10.1002/ange.202404505