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
Materials,
Journal Year:
2025,
Volume and Issue:
18(3), P. 654 - 654
Published: Feb. 1, 2025
The
development
of
functional
materials
and
the
use
nanotechnology
are
ongoing
projects.
These
fields
closely
linked,
but
there
is
a
need
to
combine
them
more
actively.
Nanoarchitectonics,
concept
that
comes
after
nanotechnology,
ready
do
this.
Among
related
research
efforts,
into
creating
through
formation
thin
layers
on
surfaces,
molecular
membranes,
multilayer
structures
these
have
lot
implications.
Layered
especially
important
as
key
part
nanoarchitectonics.
diversity
components
used
in
layer-by-layer
(LbL)
assemblies
notable
feature.
Examples
LbL
introduced
this
review
article
include
quantum
dots,
nanoparticles,
nanocrystals,
nanowires,
nanotubes,
g-C3N4,
graphene
oxide,
MXene,
nanosheets,
zeolites,
nanoporous
materials,
sol–gel
layered
double
hydroxides,
metal–organic
frameworks,
covalent
organic
conducting
polymers,
dyes,
DNAs,
polysaccharides,
nanocelluloses,
peptides,
proteins,
lipid
bilayers,
photosystems,
viruses,
living
cells,
tissues.
examples
assembly
show
how
useful
versatile
it
is.
Finally,
will
consider
future
challenges
Chemical Science,
Journal Year:
2024,
Volume and Issue:
15(45), P. 18715 - 18750
Published: Jan. 1, 2024
The
construction
of
functional
structures
within
a
single
plane
still
has
lot
challenges.
This
review
article
will
help
us
find
new
groundbreaking
directions
in
lateral
nanoarchitectonics
toward
advanced
material
organization.
Chemical Communications,
Journal Year:
2024,
Volume and Issue:
60(68), P. 9101 - 9104
Published: Jan. 1, 2024
The
heterogeneous
distribution
of
lipids
and
lipid-bound
proteins
in
a
plasma
membrane
has
functional
advantages.
Herein,
synthetic
system,
we
demonstrate
the
assembly
three
enzymes
involved
cascade
reactions,
response
to
substrate
first
enzyme
at
oil-water
interface
being
stabilized
by
Zn(II)-metallosurfactant.
Then
show
substrate-mediated
catalytically-active
cluster
formation
metallosurfactant
binary
mixture
with
another
non-catalytic
surfactant
interface.
catalytic
ability
can
be
tuned
controlling
clustering
through
addition
phosphate
ions.
Overall
this
work
demonstrates
functionally
diverse
supramolecular
nanoarchitectonics
The
solution
to
societal
problems
such
as
energy,
environmental,
and
biomedical
issues
lies
in
the
development
of
functional
material
systems
with
capacity
address
these
problems.
In
course
human
development,
we
are
entering
a
new
era
which
nanostructure
control
is
considered
major
materials.
concept
nanoarchitectonics
particularly
significant
this
regard,
it
comprehensively
promotes
further
nanotechnology
its
fusion
materials
chemistry.
integration
nanoscale
phenomena
macroscopic
actions
imperative
for
practical
production
structural
precision.
This
review
focuses
on
dynamic
flow-assisted
nanoarchitectonics,
wherein
explore
organization
structures
by
external
mechanical
stimuli,
predominantly
fluid
flow.
then
proceeds
select
some
examples
divide
them
into
categories
purpose
discussion:
(i)
natural
flow,
(ii)
flow
or
stress
created
artificial
equipment
devices
(forced
flow),
(iii)
at
specific
field,
namely
interfaces,
that
is,
layer-by-layer
(LbL)
assembly
LB
method.
final
perspective
section
discusses
future
research
directions
requirements
nanoarchitectonics.
meaningful
effective
use
science
set
be
area
focus
future,
poised
play
role
achieving
objective.
Science Advances,
Journal Year:
2025,
Volume and Issue:
11(20)
Published: May 16, 2025
Light-driven
rotary
motors
allow
direct
transformation
of
light
energy
into
motion
at
the
nanoscale,
giving
rise
to
countless
emerging
applications
in
molecular
engineering.
The
key
feature
enabling
unidirectional
rotation
and
controlling
its
direction
is
motor
chirality,
a
factor
hard
modify
postsynthetically.
Here,
we
propose
architecture,
E-motor,
whose
operation
can
be
switched
remotely
with
an
electric
field
pulse,
without
need
for
chemical
intervention.
Our
study
relies
on
quantum
calculations
nonadiabatic
dynamics
simulations
performed
specifically
tailored
system,
PFCN,
designed
provide
illustration
proposed
type.
We
show
that
PFCN
chirality
depends
orientation
covalently
bound
polar
switching
unit,
which
controlled
field.
At
same
time,
system
manifests
all
characteristic
photophysical
properties
motor,
set
preserved
during
absence
ChemPhysChem,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 23, 2024
Abstract
The
methodology
of
nanoarchitectonics
is
to
construct
functional
materials
using
nanounits
such
as
atoms,
molecules,
and
nanoobjects,
just
like
architecting
buildings.
Nanoarchitectonics
pursues
the
ultimate
concept
science
through
integration
related
fields.
In
this
review
paper,
under
title
interface‐interactive
nanoarchitectonics,
several
examples
structure
fabrication
function
development
at
interfaces
will
be
discussed,
highlighting
importance
with
nanoscale
considerations.
Two
sections
provide
some
solid
liquid
surfaces.
interfacial
environments,
molecular
structures
can
precisely
observed
analyzed
theoretical
calculations.
Solid
surfaces
are
a
prime
site
for
level.
has
potential
pave
way
cutting‐edge
functionality
based
on
advanced
observation
analysis.
Liquid
more
kinetic
dynamic
than
interfaces,
their
high
fluidity
offers
many
possibilities
fabrications
by
nanoarchitectonics.
latter
feature
advantages
in
terms
freedom
interaction
diversity
components,
therefore,
may
suitable
environments
functionalities.
final
section
then
discusses
what
needed
future
material
creation
