ChemPlusChem,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 27, 2024
Lattice
strain
engineering
represents
a
cutting-edge
approach
capable
of
delivering
enhanced
performance
across
various
applications.
The
lattice
can
affect
the
electrochemical
catalysts
by
changing
binding
energy
between
surface-active
sites
and
intermediates.
In
this
work,
is
regulated
through
homo/heterogeneous
atomic
interface
merging.
strong
electronic
interactions
Ni
Mo
facilitated
reaction
kinetic
HER.
prepared
NiMo@SSM
exhibits
excellent
HER
catalytic
with
70
mV
overpotential
at
current
density
10
mA
cm
ChemPlusChem,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 27, 2024
Lattice
strain
engineering
represents
a
cutting-edge
approach
capable
of
delivering
enhanced
performance
across
various
applications.
The
lattice
can
affect
the
electrochemical
catalysts
by
changing
binding
energy
between
surface-active
sites
and
intermediates.
In
this
work,
is
regulated
through
homo/heterogeneous
atomic
interface
merging.
strong
electronic
interactions
Ni
Mo
facilitated
reaction
kinetic
HER.
prepared
NiMo@SSM
exhibits
excellent
HER
catalytic
with
70
mV
overpotential
at
current
density
10
mA
cm
