Small Structures,
Journal Year:
2023,
Volume and Issue:
4(12)
Published: Aug. 11, 2023
Luminogens
with
aggregation‐induced
emission
properties
(AIEgens),
as
a
novel
and
attractive
fluorescent
molecule,
have
been
used
in
various
fields,
such
detection,
imaging,
disease
treatment,
which
can
overcome
the
traditional
aggregation‐caused
quenching
of
organic
molecules.
Nevertheless,
AIEgens
still
problems
water
solubility
fluorescence
stability
practical
applications.
Aiming
for
improving
AIEgens’
performance
promoting
development
diverse
applications
AIEgens,
it
is
an
available
strategy
to
bind
those
inorganic
materials
abundant
variety,
easy
synthesis,
unique
rigid
pore
structure.
The
constructed
inorganic‐based
AIE
not
only
inherit
luminescence
characteristics
but
also
retain
biocompatibility
degradability
materials,
endowing
more
versatility.
Herein,
up‐to‐date
researches
several
representative
are
introduced,
emphasis
on
their
structure
design,
synthesis
strategy,
regulation
AIE,
application
biological
field.
Finally,
current
situation,
challenges,
future
potential
discussed
prospected.
Journal of CO2 Utilization,
Journal Year:
2024,
Volume and Issue:
81, P. 102727 - 102727
Published: March 1, 2024
In
the
face
of
escalating
global
climate
challenges,
effective
carbon
dioxide
(CO₂)
capture
techniques
remain
at
forefront
mitigating
anthropogenic
greenhouse
gas
emissions.
This
comprehensive
review
elucidates
latest
advancements
in
CO₂
capture,
emphasizing
two
predominant
methodologies:
absorption
and
adsorption.
We
delve
into
mechanisms
underlying
each
process,
highlighting
novel
materials
technologies
that
have
emerged
over
recent
years.
For
absorption,
focus
is
placed
on
material
design
strategy,
identifying
new
class
amines,
ionic
liquids
(ILs)
nanofluids
for
enhanced
CO2
capacities
reduced
energy
requirements.
realm
adsorption,
synthesis
innovative
adsorbents,
such
as
metal
organic
framework
(MOF),
polymers,
inorganic
silicon-based
biochar
byproducts
from
biomass
with
superior
selectivity
stability,
explored.
Additionally,
addresses
challenges
associated
method,
offering
insights
potential
avenues
further
research.
By
providing
a
holistic
overview
current
landscape
this
article
serves
pivotal
resource
researchers
industry
professionals
aiming
to
advance
sustainable
solutions
combat
change.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
36(9)
Published: Nov. 6, 2023
The
recent
prevalence
of
monkeypox
has
led
to
the
declaration
a
Public
Health
Emergency
International
Concern.
Monkeypox
lesions
are
typically
ulcers
or
pustules
(containing
high
titers
replication-competent
virus)
in
skin
and
mucous
membranes,
which
allow
virus
transmit
predominantly
through
intimate
contact.
Currently,
effective
clinical
treatments
for
lacking,
strategies
blocking
transmission
fraught
with
drawbacks.
Herein,
this
work
constructs
biomimetic
nanotemplate
(termed
TBD@M
NPs)
macrophage
membranes
as
coat
polymeric
nanoparticles
loading
versatile
aggregation-induced
emission
featured
photothermal
molecule
TPE-BT-DPTQ
core.
In
surrogate
mouse
model
(vaccinia-virus-infected
tail
scarification
model),
intravenously
injected
NPs
show
precise
tracking
near-infrared
region
II
fluorescence
imaging
lesions.
Upon
808
nm
laser
irradiation,
is
eliminated
by
effect
infected
wound
heals
rapidly.
More
importantly,
inoculation
treated
lesion
tissue
suspensions
does
not
trigger
infection
inflammatory
activation
healthy
mice,
indicating
successful
blockage
transmission.
This
study
demonstrates
first
time
theranostics
using
nanomedicine,
may
bring
new
insight
into
development
viable
strategy
management
trials.
Environment International,
Journal Year:
2023,
Volume and Issue:
175, P. 107928 - 107928
Published: April 11, 2023
Pharmaceutical
residues
are
the
undecomposed
remains
from
drugs
used
in
medical
and
food
industries.
Due
to
their
potential
adverse
effects
on
human
health
natural
ecosystems,
they
of
increasing
worldwide
concern.
The
acute
detection
pharmaceutical
can
give
a
rapid
examination
quantity
then
prevent
them
further
contamination.
Herein,
this
study
summarizes
discusses
most
recent
porous
covalent-organic
frameworks
(COFs)
metal–organic
(MOFs)
for
electrochemical
various
residues.
review
first
introduces
brief
overview
drug
toxicity
its
living
organisms.
Subsequently,
different
materials
techniques
discussed
with
materials'
properties
applications.
Then
development
COFs
MOFs
has
been
addressed
structural
sensing
Further,
stability,
reusability,
sustainability
MOFs/COFs
reviewed
discussed.
Besides,
MOFs'
limits,
linear
ranges,
role
functionalities,
immobilized
nanoparticles
analyzed
Lastly,
summarized
[email
protected]
composite
as
sensors,
fabrication
strategies
enhance
potential,
current
challenges
area.
Nano Materials Science,
Journal Year:
2023,
Volume and Issue:
6(2), P. 115 - 138
Published: Sept. 11, 2023
Energy
storage
and
conservation
are
receiving
increased
attention
due
to
rising
global
energy
demands.
Therefore,
the
development
of
materials
is
crucial.
Thermal
(TES)
systems
based
on
phase
change
(PCMs)
have
in
prominence
over
past
two
decades,
not
only
because
their
outstanding
heat
capacities
but
also
superior
thermal
regulation
capability.
However,
issues
such
as
leakage
low
conductivity
limit
applicability
a
variety
settings.
Carbon-based
graphene
its
derivatives
can
be
utilized
surmount
these
obstacles.
This
study
examines
recent
advancements
graphene-based
composites
(PCCs),
where
nanostructures
graphene,
oxide
(GO),
functionalized
graphene/GO,
aerogel
(GA)
incorporated
into
PCMs
substantially
enhance
shape
stability
that
could
translated
better
capacity,
durability,
temperature
response,
thus
boosting
attractiveness
for
TES
systems.
In
addition,
applications
PCCs
various
disciplines,
buildings,
solar
utilization,
battery
management,
discussed
summarized.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(16)
Published: Feb. 26, 2024
Bacterial
infections
have
emerged
as
the
leading
causes
of
mortality
and
morbidity
worldwide.
Herein,
we
developed
a
dual-channel
fluorescence
"turn-on"
sensor
array,
comprising
six
electrostatic
complexes
formed
from
one
negatively
charged
poly(para-aryleneethynylene)
(PPE)
positively
aggregation-induced
emission
(AIE)
fluorophores.
The
6-element
array
enabled
simultaneous
identification
20
bacteria
(OD
Materials Chemistry Frontiers,
Journal Year:
2023,
Volume and Issue:
7(22), P. 5561 - 5660
Published: Jan. 1, 2023
This
review
provides
an
overview
of
the
progress
in
development
AIE-based
organic
small
molecule
probes
for
detecting
biologically
important
molecules,
drug
volatile
compounds,
and
explosives
over
past
five
years.
Chemical & Biomedical Imaging,
Journal Year:
2023,
Volume and Issue:
1(6), P. 509 - 521
Published: July 3, 2023
Observations
of
the
micro
world,
especially
structures
organelles,
have
been
attractive
topics
since
17th
century.
As
a
powerful
detection
tool,
fluorescence
technique
has
played
significant
role
in
bioimaging
to
provide
more
details
and
enhance
signal-to-noise
ratio
compared
that
traditional
optical
microscopes.
The
boom
aggregate-induced
emission
luminogens
(AIEgens)
last
two
decades
revolutionized
design
strategy
luminescent
materials
for
biological
applications.
This
Review
summarizes
advantages
recent
progress
AIEgens
imaging
tracking.
Different
strategies
including
turn-on
imaging,
stimuli-response
sensing,
long-term
tracking
are
presented.
NIR
used
in-depth
via
different
methods
also
discussed.
Finally,
we
propose
several
potential
development
directions
bioimaging.
Macromolecular Rapid Communications,
Journal Year:
2024,
Volume and Issue:
45(14)
Published: April 10, 2024
Abstract
Polyethylene
(PE),
a
highly
prevalent
non‐biodegradable
polymer
in
the
field
of
plastics,
presents
waste
management
issue.
To
alleviate
this
issue,
bio‐based
PE
(bio‐PE),
derived
from
renewable
resources
like
corn
and
sugarcane,
offers
an
environmentally
friendly
alternative.
This
review
discusses
various
production
methods
bio‐PE,
including
fermentation,
gasification,
catalytic
conversion
biomass.
Interestingly,
bio‐PE
volumes
market
are
expanding
due
to
growing
environmental
concerns
regulatory
pressures.
Additionally,
biocomposites
using
agricultural
as
filler
materials,
highlights
demand
for
sustainable
alternatives
conventional
plastics.
According
previous
studies,
addition
≈50%
defibrillated
abaca
fibers
into
matrix
compatibilizer,
results
highest
Young's
modulus
4.61
5.81
GPa,
respectively.
These
have
potential
applications
automotive,
building
construction,
furniture
industries.
Moreover,
advancement
made
abiotic
biotic
degradation
is
elucidated
address
their
impacts.
Finally,
paper
concludes
with
insights
opportunities,
challenges,
future
perspectives
utilization
biocomposites.
In
summary,
can
contribute
cleaner
future.
Chemistry - An Asian Journal,
Journal Year:
2024,
Volume and Issue:
19(12)
Published: April 23, 2024
Abstract
This
review
explores
the
potential
of
using
different
types
ash,
namely
fly
biomass
and
coal
ash
etc.,
as
mediums
for
CO
2
capture
sequestration.
The
diverse
origins
these
–
municipal
waste,
organic
biomass,
combustion
impart
unique
physicochemical
properties
that
influence
their
suitability
efficiency
in
absorption.
first
discusses
environmental
economic
implications
wastes,
emphasizing
reduction
landfill
usage
transformation
waste
into
value‐added
products.
Then
chemical/physical
treatments
wastes
inherent
capabilities
binding
or
reacting
with
are
introduced,
along
current
methodologies
utilize
ashes
sequestration,
including
mineral
carbonation
direct
air
techniques.
application
highlighted,
followed
by
discussion
regarding
challenges
associated
ash‐based
absorption
approach.
Finally,
article
projects
future,
proposing
innovative
approaches
technological
advancements
needed
to
enhance
efficacy
combating
increasing
levels.
By
providing
a
comprehensive
analysis
strategies
envisioning
future
prospects,
this
aims
contribute
field
sustainable
management.
