Nanomaterials,
Journal Year:
2022,
Volume and Issue:
12(5), P. 769 - 769
Published: Feb. 24, 2022
The
advancements
in
nanoparticles
(NPs)
may
be
lighting
the
sustainable
and
eco-friendly
path
to
accelerate
removal
of
toxic
compounds
from
contaminated
soils.
Many
efforts
have
been
made
increase
efficiency
phytoremediation,
such
as
inclusion
chemical
additives,
application
rhizobacteria,
genetic
engineering,
etc.
In
this
context,
integration
nanotechnology
with
bioremediation
has
introduced
new
dimensions
for
revamping
remediation
methods.
Hence,
advanced
approaches
combine
nanotechnological
biological
methods
which
nanoscale
process
regulation
supports
adsorption
deterioration
pollutants.
Nanoparticles
absorb/adsorb
a
large
variety
contaminants
also
catalyze
reactions
by
lowering
energy
required
break
them
down,
owing
their
unique
surface
properties.
As
result,
reduces
accumulation
pollutants
while
limiting
spread
one
medium
another.
Therefore,
review
article
deals
all
possibilities
NPs
soils
associated
environmental
concerns.
Biotechnology Advances,
Journal Year:
2023,
Volume and Issue:
67, P. 108181 - 108181
Published: June 1, 2023
The
sustainable
utilization
of
biochar
produced
from
biomass
waste
could
substantially
promote
the
development
carbon
neutrality
and
a
circular
economy.
Due
to
their
cost-effectiveness,
multiple
functionalities,
tailorable
porous
structure,
thermal
stability,
biochar-based
catalysts
play
vital
role
in
biorefineries
environmental
protection,
contributing
positive,
planet-level
impact.
This
review
provides
an
overview
emerging
synthesis
routes
for
multifunctional
catalysts.
It
discusses
recent
advances
biorefinery
pollutant
degradation
air,
soil,
water,
providing
deeper
more
comprehensive
information
catalysts,
such
as
physicochemical
properties
surface
chemistry.
catalytic
performance
deactivation
mechanisms
under
different
systems
were
critically
reviewed,
new
insights
into
developing
efficient
practical
large-scale
use
various
applications.
Machine
learning
(ML)-based
predictions
inverse
design
have
addressed
innovation
with
high-performance
applications,
ML
efficiently
predicts
biochar,
interprets
underlying
complicated
relationships,
guides
synthesis.
Finally,
benefit
economic
feasibility
assessments
are
proposed
science-based
guidelines
industries
policymakers.
With
concerted
effort,
upgrading
protection
reduce
pollution,
increase
energy
safety,
achieve
management,
all
which
beneficial
attaining
several
United
Nations
Sustainable
Development
Goals
(UN
SDGs)
Environmental,
Social
Governance
(ESG).
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(27)
Published: April 16, 2024
Abstract
In
the
Fenton‐like
reaction,
revealing
dynamic
evolution
of
active
sites
is
crucial
to
achieve
activity
improvement
and
stability
catalyst.
This
study
reports
a
perovskite
oxide
in
which
atomic
(Co
0
)
situ
embedded
exsolution
occurs
during
high‐temperature
phase
transition.
unique
anchoring
strategy
significantly
improves
Co
3+
/Co
2+
cycling
efficiency
at
interface
inhibits
metal
leaching
peroxymonosulfate
(PMS)
activation.
The
Co@L‐PBMC
catalyst
exhibits
superior
PMS
activation
ability
could
99%
degradation
tetracycline
within
5
min.
combination
experimental
characterization
density
functional
theory
(DFT)
calculations
elucidates
that
electron‐deficient
oxygen
vacancy
accepts
an
electron
from
3d‐orbital,
resulting
significant
delocalization
site,
thereby
facilitating
adsorption
*HSO
/*OH
intermediate
onto
“metal‐V
O
bridge”
structure.
work
provides
insights
into
mechanism
level,
will
guide
rational
design
next‐generation
catalysts
for
environmental
remediation.
