Journal of Physics Condensed Matter,
Год журнала:
2024,
Номер
37(5), С. 053001 - 053001
Опубликована: Ноя. 8, 2024
Abstract
Nanotechnology
has
elucidated
scientific
phenomena
of
various
materials
at
the
nano-level.
The
next
step
in
developments
is
to
build
up
materials,
especially
condensed
matter,
based
on
such
nanotechnology-based
knowledge.
Nanoarchitectonics
can
be
regarded
as
a
post-nanotechnology
concept.
In
nanoarchitectonics,
functional
material
systems
are
architected
from
nanounits.
Here,
this
review
would
like
focus
layered
structures
terms
structure
formation.
unit
mostly
two-dimensional
or
thin-film
materials.
They
attractive
that
have
attracted
much
attention
modern
matter
science.
By
organizing
them
into
structures,
we
expect
develop
functions
communication
between
layers.
Building
by
assembling
nano-layers
units
typical
approach
nanoarchitectonics.
discussion
will
divided
following
categories:
hard
hybrid,
soft
and
living
object.
For
each
target,
several
recent
research
examples
given
illustrate
discussion.
This
paper
extract
what
aspects
considered
important
creation
component.
Layering
strategies
need
adapted
characteristics
components.
type
structural
precision
functionality
required
highly
dependent
flexibility
mobility
Furthermore,
needed
nanoarchitectonics
discussedas
future
perspectives.
Bulletin of the Chemical Society of Japan,
Год журнала:
2023,
Номер
97(1)
Опубликована: Дек. 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.
PLoS ONE,
Год журнала:
2024,
Номер
19(1), С. e0296270 - e0296270
Опубликована: Янв. 4, 2024
Nowadays,
it
is
fascinating
to
engineer
waste
biomass
into
functional
valuable
nanomaterials.
We
investigate
the
production
of
hetero-atom
doped
carbon
quantum
dots
(N-S@MCDs)
address
adaptability
constraint
in
green
precursors
concerning
contents
i.e.,
Tagetes
erecta
(marigold
extract).
The
successful
formation
N-S@MCDs
as
described
has
been
validated
by
distinct
analytical
characterizations.
As
synthesized
successfully
incorporated
on
corn-starch
powder,
providing
a
nano-carbogenic
fingerprint
powder
composition
(N-S@MCDs/corn-starch
phosphors).
imparts
astounding
color-tunability
which
enables
highly
fluorescent
pattern
developed
different
non-porous
surfaces
along
with
immediate
visual
enhancement
under
UV-light,
revealing
bright
sharp
fingerprint,
long-time
preservation
fingerprints.
creation
and
comparison
latent
fingerprints
(LFPs)
are
two
key
research
recognition
detection
LFPs,
respectively.
In
this
work,
regulated
an
artificial
intelligence
program.
optimum
sample
very
high
degree
similarity
standard
control,
shown
program’s
good
matching
score
(86.94%)
for
optimal
sample.
Hence,
our
results
far
outperform
benchmark
attained
using
conventional
method,
making
N-S@MCDs/corn-starch
phosphors
digital
processing
program
suitable
use
real-world
scenarios.
Materials,
Год журнала:
2024,
Номер
17(1), С. 271 - 271
Опубликована: Янв. 4, 2024
The
next
step
in
nanotechnology
is
to
establish
a
methodology
assemble
new
functional
materials
based
on
the
knowledge
of
nanotechnology.
This
task
undertaken
by
nanoarchitectonics.
In
nanoarchitectonics,
we
architect
material
systems
from
nanounits
such
as
atoms,
molecules,
and
nanomaterials.
terms
hierarchy
structure
harmonization
function,
created
nanoarchitectonics
has
similar
characteristics
organization
biosystems.
Looking
at
actual
biofunctional
systems,
dynamic
properties
interfacial
environments
are
key.
other
words,
interfaces
important
for
production
bio-like
highly
systems.
this
review
paper,
will
be
discussed,
looking
recent
typical
examples.
particular,
basic
topics
“molecular
manipulation,
arrangement,
assembly”
“material
production”
discussed
first
two
sections.
Then,
following
section,
“fullerene
assembly:
zero-dimensional
unit
advanced
materials”,
discuss
how
various
structures
can
very
nanounit,
fullerene.
above
examples
demonstrate
versatile
possibilities
architectonics
interfaces.
last
these
tendencies
summarized,
future
directions
discussed.
SynOpen,
Год журнала:
2023,
Номер
07(02), С. 186 - 208
Опубликована: Май 1, 2023
Abstract
Triazole-based
compounds
possess
a
broad
range
of
activity
and
can
be
synthesized
using
click
chemistry.
Many
new
chemotherapeutic
agents
have
been
developed
in
recent
years
by
exploiting
chemistry
these
are
covered
this
review.
ACS Applied Nano Materials,
Год журнала:
2023,
Номер
6(3), С. 1859 - 1869
Опубликована: Фев. 1, 2023
Graphitic
carbon
nitride
(g-C3N4)
is
a
prominent
semiconductor
material
for
numerous
photocatalytic
applications.
The
mesoporous
g-C3N4
(mpg-C3N4),
polymeric
metal-free
proficient
photocatalyst
with
triazine
rings,
lightweight
and
has
high
surface
area.
In
this
work,
we
elucidated
the
role
of
mpg-C3N4
esterification
substituted
benzaldehyde
without
any
additives,
approach,
under
visible
light
irradiation
at
room
temperature.
been
well
characterized
by
various
physicochemical
techniques
like
X-ray
diffraction,
Fourier-transform
infrared,
UV–visible
spectrophotometry,
transmission
electron
microscopy
(TEM),
high-resolution
TEM,
elemental
mapping,
Brunauer–Emmett–Teller
catalyst
characterization
revealed
that
as-prepared
area
(97.39
m2/g),
porosity,
medium
band
gap
(2.83
eV),
nanowire-like
shape.
properties
enhanced
material's
activity
toward
to
afford
maximum
35%
conversion
99%
selectivity.
A
further
extension
work
explored
organic
dye
degradation
reaction,
where
it
observed
materials
are
stable,
sturdy,
reusable
more
than
eight
cycles
slight
loss
in
activity.
This
research
widens
versatile
application
specific
catalytic
