PubMed,
Journal Year:
2020,
Volume and Issue:
52(1), P. 205 - 224
Published: Feb. 1, 2020
Nowadays,
magnetic
nanoparticles
(MNPs)
have
been
rapidly
investigated
and
attracted
worldwide
attention
due
to
their
great
potential
as
mediators
of
heat
for
treating
hyperthermia
possibility
deliver
drugs
at
specific
locations,
which
can
thereby
limit
systematic
effects.
Cancer
therapy
via
MNPs
proposes
novel
properties
rather
than
normal
methods
such
almost
zero
side
effects
a
high-efficiency
rate
effectiveness.
The
key
aim
targeted
drug
delivery
is
reduce
the
main
cancer
treatment
that
other
usual
chemotherapies
will
attend
body,
thus
controlling
effectiveness
on
location
tumoral
tissue
exist.
Herein,
high
has
studied,
different
examples
hypothermia
provided.
Applied Surface Science Advances,
Journal Year:
2021,
Volume and Issue:
6, P. 100163 - 100163
Published: Sept. 14, 2021
Biomedical
applications
with
emphasis
on
the
design
of
smart
materials,
specifically
magnetic
nanoparticles
(MNPs)
are
considered
to
have
technological
benefits
because
they
can
be
manipulated
using
fields.
Magnetic
NPs
been
widely
used
in
hyperthermia,
target
drug
delivery
system,
imaging,
and
extraction
biomolecules,
postulating
them
also
as
an
important
tool
cancer
treatment.
Morphological
structures
materials
drawn
tremendous
attention
from
diverse
scientific
fields
due
their
unique
surface
chemistry,
nontoxicity,
biocompatibility,
particularly
inducible
moment.
This
review
features
recent
research
accomplishments
made
biomedical
field
nanoparticles.
The
first
part
gives
a
comprehensive
overview
treatment
chronic
diseases
targeting.
second
includes
role
electrochemical,
optical-based
immunoassays.
outlines
current
challenges
future
perspectives
for
fostering
advanced
high-performance
applications.
Nature Electronics,
Journal Year:
2021,
Volume and Issue:
4(7), P. 464 - 477
Published: July 22, 2021
Wireless
on-demand
drug
delivery
systems
exploit
exogenous
stimuli—acoustic
waves,
electric
fields,
magnetic
fields
and
electromagnetic
radiation—to
trigger
carriers.
The
approach
allows
drugs
to
be
delivered
with
controlled
release
profiles
minimal
off-target
effects.
Recent
advances
in
electronics
materials
engineering
have
led
the
development
of
sophisticated
designed
for
specific
applications.
Here
we
review
wireless
systems.
We
examine
working
mechanisms,
applications,
advantages
limitations
that
are
triggered
by
or
radiation.
also
provide
design
guidelines
such
systems,
including
key
metrics
evaluating
practicality
different
smart
This
Review
examines
radiation,
provides
Materials,
Journal Year:
2021,
Volume and Issue:
14(4), P. 706 - 706
Published: Feb. 3, 2021
The
scientific
community
has
made
great
efforts
in
advancing
magnetic
hyperthermia
for
the
last
two
decades
after
going
through
a
sizeable
research
lapse
from
its
establishment.
All
progress
various
topics
ranging
nanoparticle
synthesis
to
biocompatibilization
and
vivo
testing
have
been
seeking
push
forefront
towards
some
new
clinical
trials.
As
many,
they
did
not
go
at
expected
pace.
Today,
fruitful
international
cooperation
wisdom
gain
careful
analysis
of
lessons
learned
seminal
trials
allow
us
future
with
better
guarantees
more
definitive
takeoff
this
genuine
nanotherapy
against
cancer.
Deliberately
giving
prominence
number
critical
aspects,
opinion
review
offers
blend
state-of-the-art
hints
glimpses
into
therapy,
considering
evolution
science
technology
behind
hyperthermia.
ACS Omega,
Journal Year:
2022,
Volume and Issue:
7(4), P. 3134 - 3150
Published: Jan. 21, 2022
Ferrofluids
are
colloidal
suspensions
of
iron
oxide
nanoparticles
(IONPs)
within
aqueous
or
nonaqueous
liquids
that
exhibit
strong
magnetic
properties.
These
properties
allow
ferrofluids
to
be
manipulated
and
controlled
when
exposed
fields.
This
review
aims
provide
the
current
scope
research
opportunities
regarding
methods
synthesis
nanoparticles,
surfactants,
carrier
for
ferrofluid
production,
along
with
rheology
applications
fields
medicine,
water
treatment,
mechanical
engineering.
A
is
composed
IONPs,
a
surfactant
coats
IONPs
prevent
agglomeration,
liquid
suspends
IONPs.
Coprecipitation
thermal
decomposition
main
used
Despite
fact
provides
precise
control
on
nanoparticle
size,
coprecipitation
most
method,
even
oxidation
can
occur.
alters
ratio
maghemite/magnetite,
influencing
ferrofluids.
Strategies
overcome
have
been
proposed,
such
as
use
an
inert
atmosphere,
adjusting
Fe(II)
Fe(III)
1:2,
exploration
other
metals
state
+2.
Surfactants
chosen
according
application
ensure
stability.
Hence,
compatible
(polar
nonpolar)
selected,
then,
surfactant,
mainly
polymer,
embedded
in
providing
steric
barrier.
Due
variety
surfactants
liquids,
rheological
important
response
variable
evaluated
synthesizing
There
many
reported
ferrofluids,
including
biosensing,
medical
imaging,
medicinal
therapy,
nanoemulsions,
impedance.
Other
include
energy
harvesting
transfer,
vibration
control.
To
progress
from
applications,
still
ongoing
ferrofluids'
Chemical Reviews,
Journal Year:
2022,
Volume and Issue:
122(6), P. 5411 - 5475
Published: Jan. 11, 2022
In
recent
years,
the
continuous
development
of
magnetic
nanostructures
(MNSs)
has
tremendously
promoted
both
fundamental
scientific
research
and
technological
applications.
Different
from
bulk
magnet,
systematic
engineering
on
MNSs
brought
a
great
breakthrough
in
some
emerging
fields
such
as
construction
MNSs,
magnetism
exploration
multidimensional
their
potential
translational
this
review,
we
give
detailed
description
synthetic
strategies
based
features
application
discuss
progress
nanomedicines,
advanced
nanobiotechnology,
catalysis,
electromagnetic
wave
adsorption
(EMWA),
aiming
to
provide
guidance
for
fabrication
toward
diverse
