氧气
格子(音乐)
化学
材料科学
化学物理
物理
有机化学
声学
作者
Xinyu Ping,Yongduo Liu,Lirong Zheng,Yang Song,Lin Guo,Siguo Chen,Yuan Wei
标识
DOI:10.1038/s41467-024-46815-6
摘要
Abstract Ruthenium dioxide is presently the most active catalyst for the oxygen evolution reaction (OER) in acidic media but suffers from severe Ru dissolution resulting from the high covalency of Ru-O bonds triggering lattice oxygen oxidation. Here, we report an interstitial silicon-doping strategy to stabilize the highly active Ru sites of RuO 2 while suppressing lattice oxygen oxidation. The representative Si-RuO 2 −0.1 catalyst exhibits high activity and stability in acid with a negligible degradation rate of ~52 μV h −1 in an 800 h test and an overpotential of 226 mV at 10 mA cm −2 . Differential electrochemical mass spectrometry (DEMS) results demonstrate that the lattice oxygen oxidation pathway of the Si-RuO 2 −0.1 was suppressed by ∼95% compared to that of commercial RuO 2 , which is highly responsible for the extraordinary stability. This work supplied a unique mentality to guide future developments on Ru-based oxide catalysts’ stability in an acidic environment.
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