Rational design of trifunctional
electrocatalysts with robust efficiency
used for oxygen reduction, oxygen evolution, and hydrogen evolution
reactions (ORR, OER, and HER) is of significance to renewable energy
conversion techniques, which remains a challenging issue. This study
integrates dominant Co/Co3O4 with a small fraction
of RuO2 and the CoRu alloy anchored on a hollow carbon
matrix, originating from the novel Ru-doped hollow metal–organic
framework (MOF) precursor, which is synthesized via tannic etching
and ion exchange. Notably, the introduced ultralow Ru (1.28 wt %)
not only generates new Ru-based species but also induces a Ru-enriched
surface with abundant oxygen vacancies. Moreover, a suitable balance
among different valencies of Co or Ru can be tuned by oxidation time,
resulting in preferable Co2+ and Ru4+ species.
Triggered by these unparalleled surface properties along with good
conductivity, hollow structure, and the synergistic effect of multiple
active sites, the resulting CoRu-O/A@hollow nitrogen-doped carbon
(HNC) shows robust catalytic performance for ORR/OER/HER in an alkaline
electrolyte. Typically, it exhibits a potential gap of 0.662 V for
OER/ORR and enables an alkaline water electrolyzer with a cell voltage
of 1.558 V at 10 mA cm–2. This work would
serve as guidance for well construction of transition-metal-based
trifunctional electrocatalysts by the MOF-assisted strategy or the
modulation effects of low-content Ru.
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