Chemical Reviews,
Год журнала:
2024,
Номер
124(15), С. 9015 - 9080
Опубликована: Июль 17, 2024
Making
a
measurement
over
millions
of
nanoparticles
or
exposed
crystal
facets
seldom
reports
on
reactivity
single
nanoparticle
facet,
which
may
depart
drastically
from
ensemble
measurements.
Within
the
past
30
years,
science
has
moved
toward
studying
atoms,
molecules,
and
nanoparticles,
one
at
time.
This
shift
been
fueled
by
realization
that
everything
changes
nanoscale,
especially
important
industrially
relevant
properties
like
those
to
electrocatalysis.
Studying
nanoscale
entities,
however,
is
not
trivial
required
development
new
tools.
review
explores
tale
clever
use
old
tools
study
electrocatalysis
entity
level.
We
explore
in
detail
complex
interrelationship
between
method,
electrocatalytic
material,
reaction
interest
(e.g.,
carbon
dioxide
reduction,
oxygen
hydrazine
oxidation,
etc.).
end
with
our
perspective
future
key
focus
what
types
measurements
present
greatest
opportunity
for
fundamental
discovery.
In
the
dynamic
realm
of
energy
conversion,
demand
for
efficient
electrocatalysis
has
surged
due
to
urgent
need
seamlessly
integrate
renewable
energy.
Traditional
electrocatalyst
preparation
faces
challenges
like
poor
controllability,
elevated
costs,
and
stringent
operational
conditions.
The
introduction
microwave
strategies
represents
a
transformative
shift,
offering
rapid
response,
high-temperature
energy,
superior
controllability.
Notably,
non-liquid-phase
advanced
technology
holds
promise
introducing
novel
models
discoveries
compared
traditional
liquid-phase
methods.
This
review
examines
nuanced
applications
in
structural
engineering,
emphasizing
its
pivotal
role
paradigm
addressing
conventional
ensuing
discussion
explores
profound
impact
on
highlighting
discernible
advantages
optimizing
performance.
Various
techniques
are
comprehensively
discussed,
providing
forward-looking
perspective
their
untapped
potential
propel
strides
research.
It
provides
perspective,
delving
into
microwaves
Journal of Materials Chemistry A,
Год журнала:
2023,
Номер
11(31), С. 16433 - 16457
Опубликована: Янв. 1, 2023
Hybrid
water
electrolysis
using
2D
electrocatalysts
is
a
promising
way
to
reduce
the
cost
of
green
hydrogen
production.
This
review
systematically
assesses
status
quo
and
future
challenges
various
materials
for
different
reactions.
Chemical Reviews,
Год журнала:
2024,
Номер
124(15), С. 9015 - 9080
Опубликована: Июль 17, 2024
Making
a
measurement
over
millions
of
nanoparticles
or
exposed
crystal
facets
seldom
reports
on
reactivity
single
nanoparticle
facet,
which
may
depart
drastically
from
ensemble
measurements.
Within
the
past
30
years,
science
has
moved
toward
studying
atoms,
molecules,
and
nanoparticles,
one
at
time.
This
shift
been
fueled
by
realization
that
everything
changes
nanoscale,
especially
important
industrially
relevant
properties
like
those
to
electrocatalysis.
Studying
nanoscale
entities,
however,
is
not
trivial
required
development
new
tools.
review
explores
tale
clever
use
old
tools
study
electrocatalysis
entity
level.
We
explore
in
detail
complex
interrelationship
between
method,
electrocatalytic
material,
reaction
interest
(e.g.,
carbon
dioxide
reduction,
oxygen
hydrazine
oxidation,
etc.).
end
with
our
perspective
future
key
focus
what
types
measurements
present
greatest
opportunity
for
fundamental
discovery.
