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
Bulletin of the Chemical Society of Japan,
Journal Year:
2023,
Volume and Issue:
97(1)
Published: Dec. 1, 2023
Abstract
Nanotechnology
has
revealed
the
science
of
nanoscale.
The
global
challenge
that
will
follow
is
to
build
functional
materials
with
knowledge
nanoscale
phenomena.
This
task
carried
out
by
nanoarchitectonics
as
a
postnanotechnology
concept.
goal
material
systems
architecting
atoms,
molecules,
and
nanomaterials
building
blocks.
Fundamentally,
all
are
made
atoms
molecules.
Therefore,
nanoarchitectonics,
which
architects
from
can
be
universal
way
create
materials.
It
may
said
method
for
everything
in
science.
From
basic
units,
living
cells,
complex
systems,
components
nanoarchitectonics.
paper
presents
recent
examples
research
at
various
size
levels,
atomic
cellular
level,
specifically,
(i)
atomistic
(ii)
molecular
(iii)
supramolecular
(iv)
inorganic
(v)
biomolecular
(vi)
cell-mimic
(vii)
cell-based
possibility
science,
an
integrative
then
explored.
Chemical Communications,
Journal Year:
2024,
Volume and Issue:
60(16), P. 2152 - 2167
Published: Jan. 1, 2024
In
nanoarchitectonics
approaches,
rational
physical
and
chemical
communications
will
lead
to
the
development
of
more
advanced
functional
materials.
Layer-by-layer
assembly
can
be
a
powerful
tool
for
this
purpose,
as
exemplified
in
feature
paper.
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
Chemistry of Materials,
Journal Year:
2023,
Volume and Issue:
35(14), P. 5233 - 5254
Published: July 3, 2023
Considering
the
creation
of
functional
materials
based
on
nanoscience,
an
emerging
concept
nanoarchitectonics
has
been
proposed
to
combine
nanotechnology
with
other
material-related
fields.
Nanoarchitectonics
aims
establish
universal
methodologies
architect
using
nanounits
atoms,
molecules,
and
nanomaterials.
The
ultimate
goal
is
construct
high-performance
materials,
as
seen
for
those
in
biological
systems.
Functional
molecules
systems
are
rationally
integrated,
mostly
basis
various
membrane
structures.
With
this
mind,
review
discusses
two-dimensional
films.
As
major
methods,
Langmuir–Blodgett
(LB)
method
layer-by-layer
(LbL)
assembly
first
focused.
standard
LB
technical
extensions
initially
discussed,
then
LbL
certain
advances
described.
After
that,
some
examples
advanced
techniques
presented.
Although
have
long
histories
(more
than
100
years
30
LbL),
their
developments
still
active
out
common
sense
conditions
introducing
Especially,
paper
demonstrates
that
out-of-box
thinking
will
lead
development
new
thin
film
nanoarchitectonics.
Bioengineering,
Journal Year:
2023,
Volume and Issue:
10(10), P. 1122 - 1122
Published: Sept. 25, 2023
The
advancement
achieved
in
Tissue
Engineering
is
based
on
a
careful
and
in-depth
study
of
cell–tissue
interactions.
choice
specific
biomaterial
fundamental,
as
it
represents
an
interface
for
adherent
cells
the
creation
microenvironment
suitable
cell
growth
differentiation.
knowledge
biochemical
biophysical
properties
extracellular
matrix
useful
tool
optimization
polymeric
scaffolds.
This
review
aims
to
analyse
chemical,
physical,
biological
parameters
which
are
possible
act
scaffolds
most
recent
progress
presented
this
field,
including
novelty
modification
scaffolds’
bulk
surface
from
chemical
physical
point
view
improve
cell–biomaterial
interaction.
Moreover,
we
underline
how
understanding
impact
fate
paramount
importance
successful
Engineering.
Finally,
conclude
by
reporting
future
perspectives
field
continuous
development.
Physical Chemistry Chemical Physics,
Journal Year:
2024,
Volume and Issue:
26(18), P. 13532 - 13560
Published: Jan. 1, 2024
Molecular
machines
are
evolved
through
changing
their
field
of
activity
while
maintaining
basic
functions.
Finally,
active
even
includes
the
interface
living
organisms.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(10)
Published: Jan. 16, 2024
Enhanced
bioenergy
anabolism
through
transmembrane
redox
reactions
in
artificial
systems
remains
a
great
challenge.
Here,
we
explore
synthetic
electron
shuttle
to
activate
chemo-enzymatic
cascade
mitochondria-like
nanoarchitecture
for
augmenting
anabolism.
In
this
nanoarchitecture,
dendritic
mesoporous
silica
microparticle
as
inner
compartment
possesses
higher
load
capacity
of
NADH
proton
source
and
allows
faster
mass
transfer.
addition,
the
outer
ATP
synthase-reconstituted
proteoliposomes.
Like
natural
enzymes
mitochondrion
respiratory
chain,
small
embedded
lipid
bilayer
facilely
mediates
convert
into
NAD
Cell Reports Physical Science,
Journal Year:
2025,
Volume and Issue:
6(3), P. 102461 - 102461
Published: March 1, 2025
Highlights•Fatty
acid
membranes
can
maintain
sufficient
proton
gradients•ATP
synthase-embedded
minimal
protocells
produce
ATP•The
protocell
have
an
influence
on
ATP
synthesisSummaryEnergy
conservation
is
crucial
to
life's
origin
and
evolution.
The
common
ancestor
of
all
cells
used
synthase
convert
gradients
into
ATP.
However,
pumps
generating
lipids
maintaining
are
not
universally
conserved
across
lineages.
A
solution
this
paradox
that
ancestral
could
harness
naturally
formed
geochemical
ion
with
simpler
environmentally
provided
precursors
preceding
both
biogenic
membranes.
This
runs
counter
traditional
views
phospholipid
bilayers
required
gradients.
Here,
we
show
fatty
synthesize
by
under
the
steep
pH
temperature
observed
in
hydrothermal
vent
systems.
These
findings
shed
substantial
light
early
membrane
bioenergetics,
uncovering
a
functional
intermediate
evolution
chemiosmotic
synthesis
during
protocellular
stages
postdating
synthase's
but
advent
enzymatically
synthesized
cell
membranes.Graphical
abstract
