International Journal of Molecular Sciences,
Год журнала:
2024,
Номер
25(23), С. 12912 - 12912
Опубликована: Ноя. 30, 2024
Molecularly
imprinted
polymers
(MIPs)
are
defined
as
artificial
receptors
due
to
their
selectivity
and
specificity.
Their
advantageous
properties
compared
biological
alternatives
have
sparked
interest
among
scientists,
detailed
in
numerous
review
papers.
Currently,
there
is
significant
attention
on
adhering
the
principles
of
green
chemistry
environmental
protection.
In
this
context,
MIP
research
groups
focused
developing
eco-friendly
procedures.
The
application
"greener"
monomers
reagents,
along
with
utilization
computational
methodologies
for
design
property
analysis,
two
activities
that
align
molecularly
technology.
This
discusses
preparation
MIPs
based
non-acrylic/vinylic
precursors,
such
alkoxysilanes,
ionic
liquids,
deep
eutectic
solvents,
bio-based
molecules-specifically
saccharides,
biomolecules
like
proteins.
It
provides
a
brief
introduction
materials,
aspects
production,
simulations.
Following
this,
descriptions
studied
monomers,
molecular
simulation
studies
monomer-based
MIPs,
strategies
presented.
Finally,
conclusions
an
outlook
future
directions
analysis
production
materials
pointed
out.
To
best
my
knowledge,
work
first
combine
these
principles.
Polymers,
Год журнала:
2025,
Номер
17(8), С. 1057 - 1057
Опубликована: Апрель 14, 2025
The
versatility
of
molecularly
imprinted
polymers
(MIPs)
has
led
to
their
integration
into
applications
like
biosensing,
separation,
environmental
monitoring,
and
drug
delivery
technologies.
This
diversity
resulted
in
a
plethora
synthesis
approaches
precisely
tailor
the
materials’
properties
specific
demands.
A
critical,
yet
often
overlooked,
factor
MIP
is
choice
porogen.
Porogens
play
pivotal
role
defining
morphology,
surface
properties,
swelling
behavior,
binding
efficiencies
resulting
MIPs.
While
aprotic
solvents
have
traditionally
been
standard
molecular
imprinting,
recent
developments
expanded
variety
employed
porogens
accompanied
by
notable
improvements
performance.
Therefore,
this
review
aims
highlight
both
traditional
emerging
types
used
influence
on
polymer
sorption
performance,
application
across
various
sensing
extraction
applications.
International Journal of Molecular Sciences,
Год журнала:
2025,
Номер
26(5), С. 2317 - 2317
Опубликована: Март 5, 2025
Preserving
ovarian
function
is
important
to
women's
reproductive
health.
It
necessary
for
fertility
and
maintaining
the
overall
hormonal
balance.
Platelet-rich
plasma
(PRP)
an
autologous
containing
a
predominately
platelet
concentrate
prepared
from
fresh
blood.
has
been
observed
that
PRP
injections
into
ovary
can
renew
functional
cells
of
cortical
layer
follicles
reactivate
production
sex
hormones.
may
improve
woman's
in
case
premature
failure,
condition
after
chemotherapy
treatment,
or
during
climacteric
period.
The
main
markers
evaluate
procedure's
success
are
elevated
anti-Müllerin
hormone
enlarged
count
level
atrial
ovaries.
aim
this
review
identify
procedure
point
out
electrochemical
sensor
techniques.
Literature
was
selected
depending
on
including
excluding
criteria;
studies
were
sorted
by
topics
two
blocks:
biomarkers
electrochemistry.
As
acts
as
regenerative
care,
biosensors
provide
accurate,
real-time
data
biological
response
therapy.
biosensors'
ability
monitor
levels
follicle
development
serves
objective
effectiveness
restoring
function.
Together,
these
approaches
enable
more
precise
evaluation
health
outcomes
intervention.
Polymers,
Год журнала:
2024,
Номер
16(17), С. 2441 - 2441
Опубликована: Авг. 28, 2024
Essential
oils
(EOs)
hold
therapeutic
potential,
but
their
conventional
delivery
systems
have
some
limitations.
This
review
focuses
on
the
critical
and
discussion
of
research
related
to
EO
systems.
The
also
explores
how
molecular
imprinting
technologies
(MIT)
can
advance
delivery.
MIT
offer
several
techniques,
namely
covalent,
non-covalent,
semi-covalent
imprinting,
creating
targeted
cavities
that
selectively
bind
release
EOs.
These
approaches
promise
significant
advantages
including
increased
selectivity,
controlled
release,
protection
from
environmental
degradation.
However,
challenges
stability
biocompatibility
MIPs
remain
unsolved.
Integrating
nanotechnology
through
methods
like
nanoparticle
lithographic
techniques
seems
promising
overcome
these
Some
recently
established
models
used
for
EO-related
are
paving
way
a
more
efficient
approach
harnessing
power
Therefore,
recent
future
promising,
eventually
it
will
increase
effectiveness
MIP-based
Polymer-Plastics Technology and Materials,
Год журнала:
2025,
Номер
unknown, С. 1 - 29
Опубликована: Янв. 12, 2025
This
manuscript
presents
a
systematic
overview
of
molecularly
imprinted
polymer-derived
nanocomposites,
discussing
fundamentals,
design
categorization,
and
technological
worth,
according
to
the
reported
literature
so
far.
In
this
concern,
nanocomposites
polymers
have
been
synthesized
with
carbonaceous
nanoparticles
(graphene,
carbon
nanotube,
fullerene)
inorganic
(metal/metal
oxide,
metal
organic
frameworks).
Principal
synthesis
methods
applied
for
consequential
include
efficient
polymerization
tactics,
like
free
radical
(bulk/emulsion),
electropolymerization,
sol-gel,
precipitation,
imprinting
approaches
(surface
or
nanoimprinting).
Ensuing
macromolecular
assemblies
nanocomposite
hybrid
depicted
valuable
characteristics,
counting
low
price,
high
surface
area,
functionalities,
microstructural
variations,
structural
stability,
facile
synthesis,
desirable
porosity,
sensitivity
toward
other
molecules
depending
upon
their
precision
choice
processing
technique.
Subsequently,
worth
mentioning
combinations
nanocarbon/inorganic
showed
scientific
potential
water
remediation
(adsorbent
materials),
gas/electrochemical
sensors,
drug
delivery,
biosensing
fields.
Although
plenty
reports
revealed
design,
processing,
practical
aspects
polymers;
nonetheless,
we
note,
field
needs
much
future
attention
precise
designs,
perfect
polymer-nanoparticle
assemblies,
well-defined
techniques/parameters
commercial-scale
utilizations.
