Since the conventional Haber-Bosch ammonia synthesis
loop suffers
from harsh process conditions, high energy consumption, and heavy
pollution, the artificial catalytic synthetic NH3 has emerged
as a promising alternative method for producing NH3. Meanwhile,
nitrate (NO3
–) accumulation in the environment
causes serious problems involving health and environmental issues.
The urgent need to eliminate NO3
– and
produce NH3 perfectly caters to the NO3
– reduction reaction (NO3RR) via an attractive
electrocatalytic route. Cu-based catalysts exhibit an inhibiting effect
on hydrogen evolution, rapid reduction kinetics, and stable catalytic
performance, revealing remarkable advantages for NO3RR.
In this review, we summarize the recent achievements of Cu-based catalysts
in electrocatalytic NO3RR, discuss the detection methods
for evaluating NO3RR performance, and introduce the fundamentals
for understanding the thermodynamics and kinetics. This review can
provide guidance and help for the rational design and development
of non-noble metal catalysts in electrocatalytic NO3RR
to NH3.
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