ACS Nano,
Год журнала:
2024,
Номер
18(35), С. 24458 - 24468
Опубликована: Авг. 22, 2024
Improving
the
catalytic
efficiency
of
platinum
group
metal-free
(PGM-free)
catalysts
for
sluggish
alkaline
hydrogen
oxidation
reaction
(HOR)
is
crucial
to
anion
exchange
membrane
fuel
cell.
Recently,
numerous
Ni-based
heterostructures
have
been
designed
based
on
bifunctional
theory
enhance
HOR
activity
by
optimizing
binding
energy
both
H*
and
OH*;
however,
their
activities
are
still
far
inferior
those
PGM
catalysts.
Indeed,
long
transfer
pathway
intermediates
between
different
active
sites
in
such
has
rarely
investigated,
which
could
be
reason
bottleneck.
Here,
we
design
a
Ni/MoO
Chemical Communications,
Год журнала:
2024,
Номер
unknown
Опубликована: Янв. 1, 2024
This
review
reports
a
summary
of
the
recent
progress
in
WO
x
-based
catalyst
for
electrocatalytic
reactions,
emphasizing
their
crucial
roles
as
active
species,
electron-transfer
and
hydrogen
spillover
carriers,
microenvironment
regulators.
ACS Nano,
Год журнала:
2024,
Номер
18(35), С. 24458 - 24468
Опубликована: Авг. 22, 2024
Improving
the
catalytic
efficiency
of
platinum
group
metal-free
(PGM-free)
catalysts
for
sluggish
alkaline
hydrogen
oxidation
reaction
(HOR)
is
crucial
to
anion
exchange
membrane
fuel
cell.
Recently,
numerous
Ni-based
heterostructures
have
been
designed
based
on
bifunctional
theory
enhance
HOR
activity
by
optimizing
binding
energy
both
H*
and
OH*;
however,
their
activities
are
still
far
inferior
those
PGM
catalysts.
Indeed,
long
transfer
pathway
intermediates
between
different
active
sites
in
such
has
rarely
investigated,
which
could
be
reason
bottleneck.
Here,
we
design
a
Ni/MoO
