Nano Letters,
Journal Year:
2024,
Volume and Issue:
24(44), P. 14050 - 14057
Published: Oct. 23, 2024
Inspired
by
nature,
the
development
of
artificial
micro/nanosystems
capable
communicating
has
become
an
emergent
topic
in
nanotechnology,
synthetic
biology,
and
related
areas.
However,
demonstration
actual
applications
still
to
come.
Here,
we
demonstrate
how
chemical
communication
between
micro-
nanoparticles
can
be
used
for
design
sensing
systems.
To
realize
this,
synergistically
combine
two
different
types
particles:
i.e.,
giant
unilamellar
vesicles
(GUVs)
as
senders
gated
mesoporous
receivers.
The
use
engineered
GUVs
allows
detection
analytes
based
on
responsive
membranes,
while
a
straightforward
application
test
strips
with
smartphone-based
detection.
In
addition,
that
combined
system
exhibits
signal
amplification
its
real
samples
employing
bacterial
toxin
α-hemolysin
target
analyte.
Altogether,
our
report
presents
new
route
engineering
systems
combination
communicative
micro/nanoparticles.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
2(2)
Published: May 1, 2024
Abstract
Advanced
materials
could
perform
functions
in
response
to
external
stimuli.
These
are
responsive
materials.
In
order
for
us
develop
advanced
functional
systems
with
a
good
nature,
we
need
create
methodology
that
goes
one
step
further.
It
is
the
artificial
architecture
of
material
based
on
knowledge
nanotechnology.
The
task
will
be
fulfilled
by
new
concept
nanoarchitectonics.
Nanoarchitectonics
integrates
nanotechnology
various
sciences,
basic
chemistry,
microfabrication
techniques,
and
biological
processes
architect
from
atomic,
molecular,
nanomaterial
units.
This
review
deal
nanoarchitectonics
related
phenomena
at
interfaces.
demonstrate
effectiveness
interfaces
sizes,
this
article
organized
size
systems.
Specifically,
has
grouped
them
into
(i)
molecular
level
response,
(ii)
nanodevice
(iii)
(iv)
living
cell
response.
If
social
demand
these
fully
recognized,
such
development
expected
efficiently
progress.
would
play
role
stimulating
development.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(13), P. 3168 - 3168
Published: July 3, 2024
Nanoscale
science
is
becoming
increasingly
important
and
prominent,
further
development
will
necessitate
integration
with
other
material
chemistries.
In
words,
it
involves
the
construction
of
a
methodology
to
build
up
materials
based
on
nanoscale
knowledge.
This
also
beginning
concept
post-nanotechnology.
role
belongs
nanoarchitectonics,
which
has
been
rapidly
developing
in
recent
years.
However,
scope
application
nanoarchitectonics
wide,
somewhat
difficult
compile
everything.
Therefore,
this
review
article
introduce
concepts
liquid
interface,
are
keywords
for
organization
functional
systems
biological
systems.
The
target
interfaces
liquid-liquid
liquid-solid
so
on.
Recent
examples
summarized
under
categories
molecular
assembly,
metal-organic
framework
covalent
organic
framework,
living
cell.
addition,
latest
research
interfacial
semiconductor
film
discussed.
final
conclusive
section
summarizes
these
features
discusses
necessary
components
nanoarchitectonics.
Advanced NanoBiomed Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 1, 2024
Nanoarchitectonics,
as
a
post‐nanotechnology
concept,
represents
methodology
for
the
construction
of
functional
materials
employing
atoms,
molecules,
and
nanomaterials
essential
components.
The
overarching
objective
nanoarchitectonics
is
to
develop
systems
comprising
multiple
units
assembled
in
hierarchical
manner,
observed
biological
systems.
Nevertheless,
such
challenging
endeavor.
It
would
be
prudent,
therefore,
initially
focus
on
development
that
interact
with
complex
structures
living
organisms.
Accordingly,
this
review
article
addresses
topic
nanoarchitecture
it
pertains
biomedical
applications.
This
examines
current
trends
research
presents
examples
studies
support
concept
its
applications
fields.
presented
are
follows:
i)
molecular
developments,
which
mainly
based
design
assembly;
ii)
material
examples,
using
components;
iii)
porous
materials,
will
summarized
under
heading
pore‐engineered
due
their
special
structure.
Finally,
provides
an
overview
these
discusses
future
prospects.
Materials,
Journal Year:
2024,
Volume and Issue:
17(23), P. 5918 - 5918
Published: Dec. 3, 2024
Advances
in
nanotechnology
have
made
it
possible
to
observe
and
evaluate
structures
down
the
atomic
molecular
level.
The
next
step
development
of
functional
materials
is
apply
knowledge
sciences.
This
role
nanoarchitectonics,
which
a
concept
post-nanotechnology.
Nanoarchitectonics
defined
as
methodology
create
using
nanounits
such
atoms,
molecules,
nanomaterials
building
blocks.
very
general
not
limited
or
applications,
thus
nanoarchitecture
applied
many
fields.
In
particular,
evolution
from
nanoarchitecture,
useful
consider
contribution
device
applications.
There
may
be
solution
widely
recognized
problem
integrating
top-down
bottom-up
approaches
design
systems.
With
this
mind,
review
discusses
examples
nanoarchitectonics
developments
advanced
devices.
Some
recent
are
introduced
through
broadly
dividing
them
into
organic
inorganic
nanoarchitectonics.
Examples
include
variety
control
structural
elements,
π-conjugated
structures,
chemical
complex
ligands,
steric
hindrance
effects,
stacking,
isomerization
color
changes
due
external
stimuli,
selective
redox
reactions,
doping
semiconductors
by
electron
transfer
reactions.
Supramolecular
processes
association
intercalation
molecules
also
important
controlling
properties.
often
allows
for
size,
dimension,
shape,
their
associated
physical
properties
can
controlled.
addition,
there
specific
groups
that
suitable
practical
use,
nanoparticles
graphene.
Therefore,
has
more
aspect.
Based
on
these
aspects,
finally
considers
future
further
Nano Letters,
Journal Year:
2024,
Volume and Issue:
24(44), P. 14050 - 14057
Published: Oct. 23, 2024
Inspired
by
nature,
the
development
of
artificial
micro/nanosystems
capable
communicating
has
become
an
emergent
topic
in
nanotechnology,
synthetic
biology,
and
related
areas.
However,
demonstration
actual
applications
still
to
come.
Here,
we
demonstrate
how
chemical
communication
between
micro-
nanoparticles
can
be
used
for
design
sensing
systems.
To
realize
this,
synergistically
combine
two
different
types
particles:
i.e.,
giant
unilamellar
vesicles
(GUVs)
as
senders
gated
mesoporous
receivers.
The
use
engineered
GUVs
allows
detection
analytes
based
on
responsive
membranes,
while
a
straightforward
application
test
strips
with
smartphone-based
detection.
In
addition,
that
combined
system
exhibits
signal
amplification
its
real
samples
employing
bacterial
toxin
α-hemolysin
target
analyte.
Altogether,
our
report
presents
new
route
engineering
systems
combination
communicative
micro/nanoparticles.
