Polymers for Advanced Technologies,
Год журнала:
2024,
Номер
35(12)
Опубликована: Ноя. 29, 2024
ABSTRACT
MXene‐based
hydrogels
represent
a
significant
advancement
in
biomedical
material
science,
leveraging
the
unique
properties
of
2D
MXenes
and
versatile
functionality
hydrogels.
This
review
discusses
recent
developments
integration
into
hydrogel
matrices,
focusing
on
their
applications
such
as
wound
healing,
drug
delivery,
antimicrobial
activity,
tissue
engineering,
biosensing.
MXenes,
due
to
remarkable
electrical
conductivity,
mechanical
robustness,
tunable
surface
chemistry,
enhance
properties,
responsiveness
environmental
stimuli.
Specifically,
have
shown
great
promise
accelerating
healing
through
photothermal
effects,
delivering
drugs
controlled
manner,
serving
antibacterial
agents.
Their
also
enables
targeted
cancer
therapies,
including
chemodynamic
facilitated
by
high
conductivity
properties.
Despite
promising
progress,
challenges
ensuring
biocompatibility
optimizing
synthesis
for
large‐scale
production
remain.
aims
provide
comprehensive
overview
current
state
applications,
highlighting
ongoing
advancements
potential
future
directions
these
multifunctional
materials.
Industrial Management & Data Systems,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 22, 2025
Purpose
The
artificial
intelligence-based
recommender
system
(AIRS)
provides
personalization
and
convenience
for
enhancing
customer
experience
but
triggers
customers’
resistance
arising
from
privacy
concerns.
Few
studies
have
investigated
what
concerns
arise
the
AIRS
in
e-commerce
as
well
how
these
influence
consumers’
to
e-commerce.
This
study
aims
conceptualize
explore
their
on
Design/methodology/approach
A
mixed-methods
approach
is
used.
Study
1
identifies
context-specific
related
by
interviewing
23
consumers.
2
examines
of
surveying
557
Findings
reveals
that
manifest
perceived
surveillance,
identity
theft
unauthorized
secondary
use.
finds
three
effects
intention:
direct,
completely
mediated
attitude
partially
attitude.
Additionally,
prior
invasion
strengthens
positive
attitude–intention
relationship.
Originality/value
contributes
literature
key
aspects.
Firstly,
this
advances
knowledge
about
identifying
AIRSs
Secondly,
extends
belief-attitude-intention
framework
explain
linkage
among
e-commerce,
intention.
Thirdly,
adds
new
insight
user
examining
a
perspective.
Polymers for Advanced Technologies,
Год журнала:
2024,
Номер
35(12)
Опубликована: Дек. 1, 2024
ABSTRACT
Recent
advancements
in
naturally
derived
bioadhesives
have
transformed
their
application
across
diverse
medical
fields,
including
tissue
engineering,
wound
management,
and
surgery.
This
review
focuses
on
the
innovative
development
multifunctional
nature
of
these
bioadhesives,
particularly
emphasizing
role
enhancing
adhesion
performance
wet
environments
optimizing
mechanical
properties
for
use
dynamic
tissues.
Key
areas
covered
include
chemical
physical
mechanisms
adhesion,
incorporation
multi‐adhesion
strategies
that
combine
covalent
non‐covalent
bonding,
bioinspired
designs
mimicking
natural
adhesives
such
as
those
barnacles
mussels.
Additionally,
discusses
emerging
applications
regeneration
musculoskeletal,
cardiac,
neural,
ocular
tissues,
highlighting
potential
bioadhesive‐based
therapies
complex
biological
settings.
Despite
substantial
progress,
challenges
scaling
lab‐based
innovations
clinical
overcoming
environmental
constraints
remain
critical.
Ongoing
research
bioadhesive
technologies
aims
to
bridge
gaps,
promising
significant
improvements
tailored
therapeutic
needs.
Polymers for Advanced Technologies,
Год журнала:
2024,
Номер
35(12)
Опубликована: Дек. 1, 2024
ABSTRACT
This
review
provides
a
comprehensive
overview
of
the
emerging
applications
stimuli‐responsive
hydrogels
in
3D
printing,
emphasizing
their
transformative
potential
creating
adaptive
and
multifunctional
structures.
Stimuli‐responsive
hydrogels,
including
magneto‐,
thermo‐,
pH‐,
moisture‐,
solvent‐,
photo‐responsive
varieties,
have
gained
significant
attention
due
to
ability
undergo
dynamic
changes
response
specific
environmental
stimuli.
The
begins
by
exploring
fundamental
characteristics
fabrication
methods
used
additive
manufacturing,
highlighting
exceptional
adaptability
programmability.
It
then
delves
into
various
across
diverse
fields,
soft
robotics,
tissue
engineering,
drug
delivery
systems,
wearable
electronics,
food
technology,
electromagnetic
interference
shielding,
anti‐counterfeiting
technologies.
By
integrating
latest
advancements
printing
techniques,
this
aims
offer
insights
how
are
enabling
development
innovative,
intelligent,
environmentally
responsive
systems.
future
perspectives
section
discusses
challenges
opportunities
for
advancing
use
suggesting
directions
research
that
could
push
boundaries
functional
materials
programmable
Polymers for Advanced Technologies,
Год журнала:
2024,
Номер
35(12)
Опубликована: Дек. 1, 2024
ABSTRACT
This
review
aims
to
provide
a
comprehensive
analysis
of
recent
advancements
in
smart
microneedles
(MNs)
within
the
biomedical
field,
focusing
on
integration
stimuli‐responsive
polymers
for
enhanced
therapeutic
and
diagnostic
applications.
Conventional
drug
delivery
methods
are
known
face
limitations
precision,
safety,
patient
compliance,
which
can
be
addressed
by
innovative
features
MNs.
Through
use
various
polymers,
these
MNs
have
been
designed
react
environmental
or
physiological
cues,
allowing
on‐demand
release,
biomarker
sensing,
localized
interventions.
Fundamental
materials
used
fabrication
MNs,
including
metals,
composite
hydrogels,
reviewed,
different
categories
stimuli‐responsiveness,
such
as
photo,
electro,
thermal,
mechanical,
biochemical,
explored.
Application‐specific
designs
areas
delivery,
cancer
therapy,
diabetes
management,
skin
disease
treatments
also
examined.
this
discussion,
it
is
highlighted
that
poised
play
significant
role
advancing
personalized
noninvasive
medical
treatments.
Abstract
Diabetes
mellitus
is
a
chronic
condition
characterized
by
impaired
insulin
production
or
utilization,
leading
to
serious
complications
such
as
diabetic
foot
ulcers
(DFUs).
DFUs
are
wounds
with
high
levels
of
inflammatory
cytokines,
arterial
occlusion,
and
persistent
infection,
often
resulting
in
significant
morbidity.
Traditional
treatment
methods,
including
debridement,
offloading,
infection
control,
have
shown
limited
success,
prompting
the
exploration
novel
therapeutic
strategies.
Insulin,
known
for
its
role
glucose
metabolism,
also
possesses
wound‐healing
properties
promoting
cell
proliferation,
protein
synthesis,
modulating
inflammation.
However,
systemic
administration
not
ideal
due
hypoglycemia
risks
difficulties
achieving
concentrations
at
wound
sites.
This
review
focuses
on
advanced
drug
delivery
systems
topical
application
dressings.
Various
platforms,
hydrogels,
nanoparticles,
liposomes,
microemulsions
been
developed
optimize
bioavailability,
protect
it
from
degradation,
ensure
controlled
release.
These
aim
enhance
management
addressing
multifactorial
nature
healing
patients.
The
provides
comprehensive
overview
current
advancements,
evaluates
efficacy
these
preclinical
clinical
studies,
discusses
challenges
future
perspectives
this
field.
By
highlighting
potential
innovative
approaches,
underscores
promise
improving
patient
outcomes.
Polymers for Advanced Technologies,
Год журнала:
2024,
Номер
35(12)
Опубликована: Ноя. 29, 2024
ABSTRACT
MXene‐based
hydrogels
represent
a
significant
advancement
in
biomedical
material
science,
leveraging
the
unique
properties
of
2D
MXenes
and
versatile
functionality
hydrogels.
This
review
discusses
recent
developments
integration
into
hydrogel
matrices,
focusing
on
their
applications
such
as
wound
healing,
drug
delivery,
antimicrobial
activity,
tissue
engineering,
biosensing.
MXenes,
due
to
remarkable
electrical
conductivity,
mechanical
robustness,
tunable
surface
chemistry,
enhance
properties,
responsiveness
environmental
stimuli.
Specifically,
have
shown
great
promise
accelerating
healing
through
photothermal
effects,
delivering
drugs
controlled
manner,
serving
antibacterial
agents.
Their
also
enables
targeted
cancer
therapies,
including
chemodynamic
facilitated
by
high
conductivity
properties.
Despite
promising
progress,
challenges
ensuring
biocompatibility
optimizing
synthesis
for
large‐scale
production
remain.
aims
provide
comprehensive
overview
current
state
applications,
highlighting
ongoing
advancements
potential
future
directions
these
multifunctional
materials.
