Environment International,
Journal Year:
2020,
Volume and Issue:
146, P. 106273 - 106273
Published: Nov. 28, 2020
Advanced
oxidation
process
(AOP),
with
a
high
efficiency,
fast
reaction
speed
(relatively
no
secondary
pollution),
has
become
one
of
the
core
technologies
industrial
wastewater
and
advanced
drinking
water
treatment.
Heterogeneous
Fenton-like
(HFOP)
is
kind
AOP,
which
developed
rapidly
in
recent
years
such
way
to
overcome
disadvantages
traditional
Fenton
reaction.
Metal-organic
frameworks
(MOFs)
their
derivatives
essential
heterogeneous
catalysts
for
organics
mineralization
due
large
specific
surface
area,
abundant
active
sites,
ease
structural
regulation.
However,
knowledge
gap
on
mechanism
fate
catalyst
species
during
degradation
activities
by
MOFs
presents
considerable
impediments,
particularly
wide
application
scaling
up
process.
This
work
potential
provide
guidance
ideas
researchers
engineers
fields
environmental
remediation,
catalysis
functional
materials.
review
focuses
clarifying
critical
•OH
production
from
as
well
its
action
organic's
The
developments
MOF
based
HFOP
are
compared,
more
attention
paid
following
aspects
this
review:
(1)
classifies
systematically
progressive
modification
methods
chemical
physical
treatments;
(2)
analyzes
catalytic
treating
organic
wastewater;
(3)
proposes
design
principles
improving
performance
catalysts;
(4)
discusses
main
factors
influencing
properties
practical
application;
(5)
summarizes
possible
research
challenges
directions
applied
treatment
future.
Chemical Communications,
Journal Year:
2018,
Volume and Issue:
54(82), P. 11645 - 11648
Published: Jan. 1, 2018
A
water-stable
cationic
MOF
could
be
used
as
a
single
crystal
container
to
capture
Cr(vi)-oxyanions
via
ion
exchange
with
high
capacity
and
selectivity.
It
is
the
first
report
that
demonstrates
CrO42-
ions
traced
confirmed
single-crystal
(SC-SC)
pattern.
Journal of Hazardous Materials,
Journal Year:
2022,
Volume and Issue:
442, P. 130127 - 130127
Published: Oct. 7, 2022
The
presence
of
persistent
organic
pollutants
(POPs)
in
the
aquatic
environment
is
causing
widespread
concern
due
to
their
bioaccumulation,
toxicity,
and
possible
environmental
risk.
These
contaminants
are
produced
daily
large
quantities
released
into
water
bodies.
Traditional
wastewater
treatment
plants
ineffective
at
degrading
these
pollutants.
As
a
result,
development
long-term
effective
POP
removal
techniques
critical.
In
water,
adsorption
photocatalytic
degradation
POPs
have
been
identified
as
energy
cost-efficient
solutions.
Both
technologies
received
lot
attention
for
efforts
treat
world's
wastewater.
Photocatalytic
promising,
effective,
long-lasting
method,
while
represents
simple,
practical
particularly
decentralized
systems
isolated
areas.
It
critical
develop
new
adsorbents/photocatalysts
with
desired
structure,
tunable
chemistry,
maximum
sites
highly
efficient
POPs.
class
recently
created
multifunctional
porous
materials,
Metal-organic
frameworks
(MOFs)
offer
tremendous
prospects
adsorptive
remediation.
This
review
defines
discusses
current
research
on
using
emerging
MOFs
each
type
Environment International,
Journal Year:
2020,
Volume and Issue:
146, P. 106273 - 106273
Published: Nov. 28, 2020
Advanced
oxidation
process
(AOP),
with
a
high
efficiency,
fast
reaction
speed
(relatively
no
secondary
pollution),
has
become
one
of
the
core
technologies
industrial
wastewater
and
advanced
drinking
water
treatment.
Heterogeneous
Fenton-like
(HFOP)
is
kind
AOP,
which
developed
rapidly
in
recent
years
such
way
to
overcome
disadvantages
traditional
Fenton
reaction.
Metal-organic
frameworks
(MOFs)
their
derivatives
essential
heterogeneous
catalysts
for
organics
mineralization
due
large
specific
surface
area,
abundant
active
sites,
ease
structural
regulation.
However,
knowledge
gap
on
mechanism
fate
catalyst
species
during
degradation
activities
by
MOFs
presents
considerable
impediments,
particularly
wide
application
scaling
up
process.
This
work
potential
provide
guidance
ideas
researchers
engineers
fields
environmental
remediation,
catalysis
functional
materials.
review
focuses
clarifying
critical
•OH
production
from
as
well
its
action
organic's
The
developments
MOF
based
HFOP
are
compared,
more
attention
paid
following
aspects
this
review:
(1)
classifies
systematically
progressive
modification
methods
chemical
physical
treatments;
(2)
analyzes
catalytic
treating
organic
wastewater;
(3)
proposes
design
principles
improving
performance
catalysts;
(4)
discusses
main
factors
influencing
properties
practical
application;
(5)
summarizes
possible
research
challenges
directions
applied
treatment
future.
