Plant Methods,
Journal Year:
2023,
Volume and Issue:
19(1)
Published: May 15, 2023
Abstract
Climate
change
due
to
different
human
activities
is
causing
adverse
environmental
conditions
and
uncontrolled
extreme
weather
events.
These
harsh
are
directly
affecting
the
crop
areas,
consequently,
their
yield
(both
in
quantity
quality)
often
impaired.
It
essential
seek
new
advanced
technologies
allow
plants
tolerate
stresses
maintain
normal
growth
development.
Treatments
performed
with
exogenous
phytohormones
stand
out
because
they
mitigate
negative
effects
of
stress
promote
rate
plants.
However,
technical
limitations
field
application,
putative
side
effects,
difficulty
determining
correct
dose,
limit
widespread
use.
Nanoencapsulated
systems
have
attracted
attention
a
controlled
delivery
active
compounds
for
protection
eco-friendly
shell
biomaterials.
Encapsulation
continuous
evolution
development
improvement
techniques
economically
affordable
environmentally
friendly,
as
well
biomaterials
high
affinity
carry
coat
bioactive
compounds.
Despite
potential
an
efficient
alternative
phytohormone
treatments,
encapsulation
remain
relatively
unexplored
date.
This
review
aims
emphasize
treatments
means
enhancing
plant
tolerance,
specific
focus
on
benefits
that
can
be
gained
through
improved
application
these
using
techniques.
Moreover,
main
techniques,
materials
recent
work
treated
encapsulated
been
compiled.
Bioactive Materials,
Journal Year:
2023,
Volume and Issue:
31, P. 87 - 118
Published: Aug. 10, 2023
Heparin
is
a
negatively
charged
polysaccharide
with
various
chain
lengths
and
hydrophilic
backbone.
Due
to
its
fascinating
chemical
physical
properties,
nontoxicity,
biocompatibility,
biodegradability,
heparin
has
been
extensively
used
in
different
fields
of
medicine,
such
as
cardiovascular
hematology.
This
review
highlights
recent
future
advancements
designing
materials
based
on
for
biomedical
applications.
The
physicochemical
mechanical
toxicity,
biodegradability
are
discussed.
In
addition,
the
applications
heparin-based
fields,
drug/gene
delivery,
tissue
engineering,
cancer
therapy,
biosensors,
reviewed.
Finally,
challenges,
opportunities,
perspectives
preparing
summarized.
Global Challenges,
Journal Year:
2023,
Volume and Issue:
7(9)
Published: Aug. 11, 2023
Abstract
The
remarkable
control
function
over
the
functional
material
formation
process
enabled
by
droplet
microfluidic
emulsification
approaches
can
lead
to
efficient
and
one‐step
encapsulation
of
active
substances
in
microparticles,
with
microparticle
characteristics
well
regulated.
In
comparison
conventional
fabrication
methods,
technology
not
only
construct
microparticles
various
shapes,
but
also
provide
excellent
templates,
which
enrich
expand
application
fields
microparticles.
For
instance,
intersection
disciplines
pharmacy,
life
sciences,
others,
modifying
structure
microspheres
appending
materials
be
completed
preparation
as‐prepared
polymer
particles
have
great
potential
a
wide
range
applications
for
chemical
analysis,
heavy
metal
adsorption,
detection.
This
review
systematically
introduces
devices
basic
principles
particle
using
discusses
research
high
monodispersity,
involving
plethora
types
including
spherical,
nonspherical,
Janus
type,
as
core–shell,
hole–shell,
controllable
multicompartment
particles.
Moreover,
this
paper
exhibits
critical
analysis
current
status
existing
challenges,
outlook
future
development
emerging
has
been
discussed.
Expert Opinion on Drug Delivery,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 20
Published: Jan. 7, 2025
Introduction
The
pursuit
of
linear
dosage
in
pharmacy
is
essential
for
achieving
consistent
therapeutic
release
and
enhancing
patient
compliance.
This
review
provides
a
comprehensive
summary
zero-order
drug
delivery
systems,
with
particular
focus
on
reservoir-based
systems
emanated
from
different
microfabrication
technologies.
Analytical Chemistry,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 6, 2025
Double
emulsions
are
highly
structured
dispersion
systems
that
generate
double-layered
droplets.
offer
an
effective
platform
for
encapsulating
liquid
samples.
Multilayer
protection,
controlled
release
of
encapsulated
materials,
and
stability
make
double
superior
to
single
in
handling
sensitive
This
technology
is
widely
used
biology,
food
technology,
cosmetics,
environmental
sciences.
Microfluidic
emulsification
a
promising
method
producing
monodisperse
double-emulsion
droplets
with
high
encapsulation
efficiency.
Well-controlled
adjustment
the
core
size
shell
thickness
critical
applications
emulsions.
Changing
flow
rates
fluid
phases
most
straightforward
control
emulsion
sizes.
However,
double-emulsions
can
only
be
generated
within
small
range
rates.
Thus,
wide
without
changing
device
design
or
drastically
altering
properties
challenging.
Here,
we
demonstrate
facile
tunable
phases.
To
address
this
challenge,
developed
proof-of-concept
flexible
stretchable
microfluidic
capable
controlling
size,
thickness,
generation
frequency
by
adjusting
channel
dimensions
stretching
device.
We
incorporated
three
cases
assess
feasibility
process
emulsion.
demonstrated
increases
decreases
frequency.
Experimental
results
showed
∼84%
increase
volume
∼23%
applying
∼16%
strain.
innovative
approach
significantly
advances
field
droplet-based
microfluidics,
providing
on-site,
real-time
tunability
precision
reproducibility.
Journal of Microencapsulation,
Journal Year:
2023,
Volume and Issue:
40(3), P. 125 - 156
Published: Feb. 7, 2023
Encapsulation
is
the
way
to
wrap
or
coat
one
substance
as
a
core
inside
another
tiny
known
shell
at
micro
and
nano
scale
for
protecting
active
ingredients
from
exterior
environment.
A
lot
of
substances,
such
flavours,
enzymes,
drugs,
pesticides,
vitamins,
in
addition
catalysts
being
effectively
encapsulated
within
capsules
consisting
different
natural
well
synthetic
polymers
comprising
poly(methacrylate),
poly(ethylene
glycol),
cellulose,
poly(lactide),
poly(styrene),
gelatine,
poly(lactide-co-glycolide)s,
acacia.
The
developed
release
enclosed
conveniently
time
through
numerous
mechanisms,
reliant
on
ultimate
use
final
products.
Such
technology
important
several
fields
counting
food,
pharmaceutical,
cosmetics,
agriculture,
textile
industries.
present
review
focuses
most
high-efficiency
methods
manufacturing
micro/nanocapsules
their
applications
our
life.
RSC Advances,
Journal Year:
2020,
Volume and Issue:
11(1), P. 229 - 249
Published: Dec. 23, 2020
Core-shell
drug-carrier
particles
are
known
for
their
unique
features.
Due
to
the
combination
of
superior
properties
not
exhibited
by
individual
components,
core-shell
have
gained
a
lot
interest.
The
structures
could
integrate
core
and
shell
characteristics
properties.
These
were
designed
controlled
drug
release
in
desired
location.
Therefore,
side
effects
would
be
minimized.
So,
these
particles'
advantages
led
introduction
new
methods
ideas
fabrication.
In
past
few
years,
generation
carrier
microfluidic
chips
has
attracted
much
attention.
This
method
makes
it
possible
produce
at
nanometer
micrometer
levels
same
shape
size;
usually
costs
less
than
other
methods.
using
techniques
compared
conventional
bulk
integration
capability,
reproducibility,
higher
efficiency.
created
positive
outlook
on
this
approach.
review
gives
an
overview
various
fluidic
concepts
that
used
generate
microparticles
or
nanoparticles.
Also,
traditional
more
recent
devices
design
structure
is
given.
benefits
technique
particle
demonstrated.
