The
field
of
photocatalysis
has
demonstrated
numerous
advantages
in
the
domains
environmental
protection,
energy,
and
materials
science.
However,
conventional
modification
methods
fail
to
simultaneously
enhance
carrier
separation
efficiency,
redox
capacity,
visible
light
absorption
solely
through
activation
due
intrinsic
band
structure
limitations
photocatalysts.
In
addition
methods,
introduction
an
external
field,
such
as
a
piezoelectric
can
effectively
address
deficiencies
each
step
photocatalytic
process
overall
performance.
assistance
overcomes
inherent
traditional
systems.
Hence,
this
review
provides
comprehensive
overview
recent
advancements
piezoelectric-assisted
thoroughly
investigates
interaction
between
alternating
processes.
Various
ideas
for
synergistic
enhancement
properties
are
also
explored.
This
multifield
catalytic
system
shows
remarkable
performance
stability,
pollutant
degradation,
energy
conversion,
distinguishing
it
from
single
Finally,
in-depth
analysis
is
conducted
challenges
prospects
associated
with
technology.
Journal of environmental chemical engineering,
Journal Year:
2023,
Volume and Issue:
11(5), P. 110380 - 110380
Published: June 16, 2023
Over
the
last
decades,
quantity
and
quality
of
crops
have
been
maintained
by
means
large
increasing
amounts
synthetic
herbicides,
thus
ensuring
a
world
food
production.
The
high
recalcitrance
stability
these
compounds
at
ambient
conditions
avoid
their
effective
removal
in
municipal
wastewater
treatment
facilities.
Among
potential
powerful
oxidation
treatments
that
are
being
developed
for
removing
herbicide
pollutants,
sulfate
radical
(SO4●−)
based-advanced
processes
(AOPs)
experienced
growing
interest
because
they
can
compete
with
conventional
AOPs
only
generating
reactive
oxygen
species
(ROS)
like
hydroxyl
(●OH).
This
review
presents
detailed,
comprehensive,
critical
analysis
on
application
hybrid
remediation
real
waters
wastewaters
contaminated
herbicides
bench
scale
using
persulfate
(PS)
or
peroxymonosulfate
(PMS)
as
oxidant.
Their
activation
originated
SO4●−,
which
is
partially
transformed
into
●OH.
Other
ROS
O2●−
were
formed
depending
experimental
conditions.
fundamentals
main
reactions
involved
thermal,
catalytic
(with
iron
ions,
Fe,
other
materials),
UV
without
Fe2+),
photocatalytic,
electrochemical
described.
Papers
each
procedure
to
remove
pollutants
from
oxidant
summarized,
detailed
selected
works
degradation
mineralization
efficiency,
influence
scavengers,
added
inorganic
anions,
natural
organic
matter
humic
acid,
water
matrix.
by-products
detected
reported
well.
Comparative
both
oxidants
analogous
H2O2
finally
discussed.
Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 9, 2024
Efficient
field
enhancement
effects
through
plasmonic
chemistry
for
ultrasensitive
biosensing
still
face
a
great
challenge.
Herein,
nanoconfinement
engineering
accumulation
and
synergistic
are
used
to
develop
"plasmonic
storms"
strategy
with
high
effect,
gold
nanoparticles
(AuNPs)
as
active
sites
proof
of
concept
because
their
distinctive
localized
surface
plasmon
resonance
neighborly
coupled
electromagnetic
field.
Briefly,
large
number
AuNPs
selectively
accurately
stacked
in
the
confined
nanocavity
bowl-like
nanostructure
an
situ-synthesized
strategy,
which
provides
space
strong
coupling
fields
between
these
adjacent
AuNPs,
forming
enhanced
that
is
3
orders
magnitude
higher
than
free
AuNPs.
The
proposed
nanoconfinement-engineered
demonstrated
by
surface-enhanced
Raman
scattering
(SERS)
photothermal
experiments
theoretically
visualized
finite
element
simulation.
Finally,
colorimetric/SERS/photothermal
immunochromatographic
assay
detect
The
field
of
photocatalysis
has
demonstrated
numerous
advantages
in
the
domains
environmental
protection,
energy,
and
materials
science.
However,
conventional
modification
methods
fail
to
simultaneously
enhance
carrier
separation
efficiency,
redox
capacity,
visible
light
absorption
solely
through
activation
due
intrinsic
band
structure
limitations
photocatalysts.
In
addition
methods,
introduction
an
external
field,
such
as
a
piezoelectric
can
effectively
address
deficiencies
each
step
photocatalytic
process
overall
performance.
assistance
overcomes
inherent
traditional
systems.
Hence,
this
review
provides
comprehensive
overview
recent
advancements
piezoelectric-assisted
thoroughly
investigates
interaction
between
alternating
processes.
Various
ideas
for
synergistic
enhancement
properties
are
also
explored.
This
multifield
catalytic
system
shows
remarkable
performance
stability,
pollutant
degradation,
energy
conversion,
distinguishing
it
from
single
Finally,
in-depth
analysis
is
conducted
challenges
prospects
associated
with
technology.
