Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: Feb. 26, 2024
A
novel
hybrid
ternary
metallic
electrocatalyst
of
amorphous
Mo/Co
oxides
and
crystallized
Cu
metal
was
deposited
over
Ni
foam
using
a
one-pot,
simple,
scalable
solvothermal
technique.
The
chemical
structure
the
prepared
systematically
characterized
confirmed
via
XRD,
FTIR,
EDS,
XPS
analysis
techniques.
FESEM
images
(Mo/Co)O
Advanced Science,
Journal Year:
2023,
Volume and Issue:
10(22)
Published: May 30, 2023
Valence
tuning
of
transition
metal
oxides
is
an
effective
approach
to
design
high-performance
catalysts,
particularly
for
the
oxygen
evolution
reaction
(OER)
that
underpins
solar/electric
water
splitting
and
metal-air
batteries.
Recently,
high-valence
(HVOs)
are
reported
show
superior
OER
performance,
in
association
with
fundamental
dynamics
charge
transfer
intermediates.
Particularly
considered
adsorbate
mechanism
(AEM)
lattice
oxygen-mediated
(LOM).
High-valence
states
enhance
performance
mainly
by
optimizing
e
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(27)
Published: April 23, 2024
Protonic
ceramic
fuel
cells
(PCFCs)
hold
potential
for
sustainable
energy
conversion,
yet
their
widespread
application
is
hindered
by
the
sluggish
kinetics
and
inferior
stability
of
cathode
materials.
Here,
a
facile
efficient
reverse
atom
capture
technique
developed
to
manipulate
surface
chemistry
PrBa
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 30, 2024
Abstract
Oxygen
electrocatalysis,
as
the
pivotal
circle
of
many
green
energy
technologies,
sets
off
a
worldwide
research
boom
in
full
swing,
while
its
large
kinetic
obstacles
require
remarkable
catalysts
to
break
through.
Here,
based
on
summarizing
reaction
mechanisms
and
situ
characterizations,
structure–activity
relationships
oxygen
electrocatalysts
are
emphatically
overviewed,
including
influence
geometric
morphology
chemical
structures
electrocatalytic
performances.
Subsequently,
experimental/theoretical
is
combined
with
device
applications
comprehensively
summarize
cutting‐edge
according
various
material
categories.
Finally,
future
challenges
forecasted
from
perspective
catalyst
development
applications,
favoring
researchers
promote
industrialization
electrocatalysis
at
an
early
date.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(14), P. 7392 - 7425
Published: Jan. 1, 2024
Descriptors
play
a
crucial
role
in
electrocatalysis
as
they
can
provide
valuable
insights
into
the
electrochemical
performance
of
energy
conversion
and
storage
processes.
They
allow
for
understanding
different
catalytic
activities
enable
prediction
better
catalysts
without
relying
on
time-consuming
trial-and-error
approaches.
Hence,
this
comprehensive
review
focuses
highlighting
significant
advancements
commonly
used
descriptors
critical
electrocatalytic
reactions.
First,
fundamental
reaction
processes
key
intermediates
involved
several
reactions
are
summarized.
Subsequently,
three
types
classified
introduced
based
catalysts.
These
include
d-band
center
descriptors,
readily
accessible
intrinsic
property
spin-related
all
which
contribute
to
profound
behavior.
Furthermore,
multi-type
that
collectively
determine
also
Finally,
we
discuss
future
envisioning
their
potential
integrate
multiple
factors,
broaden
application
scopes,
synergize
with
artificial
intelligence
more
efficient
catalyst
design
discovery.
Green Chemistry,
Journal Year:
2024,
Volume and Issue:
26(6), P. 2949 - 2966
Published: Jan. 1, 2024
Aerobic
photocatalysis
generates
ROS
to
oxidise
HMF
into
DFF
and
FDCA
with
co-production
of
H
2
O
that
potentially
induce
over-oxidation.
Anaerobic
enables
ambient
oxidation
simultaneous
HER,
or
hydrogenation
BHMF.