Science and Technology of Advanced Materials,
Год журнала:
2022,
Номер
23(1), С. 199 - 224
Опубликована: Март 25, 2022
Like
the
proposal
of
nanotechnology
by
Richard
Feynman,
nanoarchitectonics
concept
was
initially
proposed
Masakazu
Aono.
The
strategy
conceptually
fuses
with
other
research
fields
including
organic
chemistry,
supramolecular
micro/nanofabrication,
materials
science,
and
bio-related
sciences,
aims
to
produce
functional
from
nanoscale
components.
In
this
review
article,
bio-interactive
two-dimensional
environments
are
discussed
as
a
selected
topic.
account
gives
general
examples
for
energy
storage,
catalysis,
biomedical
applications,
followed
explanations
applications
such
biomimetic
nanosheets,
fullerene
assemblies
one-dimensional
nanowhiskers
(FNWs).
discussion
on
in
further
extends
liquid-liquid
interfaces
fluorocarbon-medium
viscous
liquid
new
frontiers
applications.
Controlling
differentiation
stem
cells
at
fluidic
is
also
discussed.
Finally,
conclusive
section
briefly
summarizes
features
discusses
possible
future
perspectives.
Angewandte Chemie International Edition,
Год журнала:
2020,
Номер
60(4), С. 2099 - 2103
Опубликована: Окт. 13, 2020
Abstract
It
is
commonly
considered
that
amyloid‐β
(Aβ)
fibrils
are
heavily
involved
in
the
neurological
diseases.
Establishing
an
external
model
based
on
core
recognition
motif
(diphenylalanine,
FF)
of
Aβ
would
be
significance
understanding
assembly
and
disassembly
living
system.
Herein,
supramolecular
gels
with
structure
transition
from
amyloid‐like
β‐sheet
to
different
helices
were
obtained
through
co‐assembly
a
N‐fluorenylmethoxycarbonyl‐protected
L‐FF
(L‐FmocFF)
achiral
pyridine
derivatives.
found
stacking
modes
(H‐
or
J‐aggregates)
additives
microenvironment
chiral
carbon
play
vital
roles
for
selectively
transfer
amplification
L‐FmocFF.
The
dynamic
process
helix
formation
was
also
captured.
This
work
provides
convenient
way
explore
basis
controlled
chirality.
Advanced Functional Materials,
Год журнала:
2022,
Номер
32(37)
Опубликована: Июнь 16, 2022
Abstract
Lipid‐based
nanoparticles
have
emerged
as
a
clinically
viable
platform
technology
to
deliver
nucleic
acids
for
wide
range
of
healthcare
applications.
Within
this
scope,
one
the
most
exciting
areas
recent
progress
and
future
innovation
potential
lies
in
material
science
lipid‐based
nanoparticles,
both
refine
existing
nanoparticle
strategies
develop
new
ones.
Herein,
latest
efforts
next‐generation
are
covered
by
taking
nanoarchitectonics
perspective
design,
acid
encapsulation
methods,
scalable
production,
application
prospects
critically
analyzed
three
classes
nanoparticles:
1)
traditional
lipid
(LNPs);
2)
lipoplexes;
3)
bicelles.
Particular
focus
is
placed
on
rationalizing
how
molecular
self‐assembly
principles
enable
advanced
functionalities
along
with
comparing
contrasting
different
nanoarchitectures.
The
current
development
status
each
class
also
evaluated
possible
directions
terms
overcoming
clinical
translation
challenges
realizing
opportunities
suggested.
Applied Physics Express,
Год журнала:
2022,
Номер
15(10), С. 100101 - 100101
Опубликована: Сен. 15, 2022
Abstract
An
emerging
concept
of
“nanoarchitectonics”
has
been
proposed
as
a
way
to
apply
the
progress
nanotechnology
materials
science.
In
introductory
parts,
we
briefly
explain
in
understanding
through
nanotechnology,
overview
nanoarchitectonics,
effects
nanoarchitectonics
on
development
functional
and
devices,
outline
intelligence
main
subject
this
review
paper.
following
sections,
process
constructing
intelligent
devices
based
atomic
switches,
which
behavior
atoms
determines
device
functions,
by
integrating
them
with
nanoarchitectonics.
The
contents
are
categorized
into
(i)
basic
operation
switch,
(ii)
artificial
synapse,
(iii)
neuromorphic
network
system,
(iv)
hetero-signal
conversion,
(v)
decision
making
device,
(vi)
switch
practical
uses.
switches
were
originally
relatively
simple
ON/OFF
binary-type
electrical
but
their
potential
multi-level
resistive
memory
for
synapses
applications.
Furthermore,
network-structured
complex
have
regression
pathways
structure
resemble
cranial
neural
circuits.
For
example,
A
decision-making
that
reproduces
human
thinking
principle
different
from
brain
circuits
was
developed
using
proton-conductive
electrochemical
cells.
progressively
usages
including
application
harsh
environments
(e.g.
high
temperature,
low
space).
Efforts
toward
information
processing
applications
tell
remarkable
success
stories
linking
control
motion
brain-like
nanoarchitecture
regulations.
Science and Technology of Advanced Materials,
Год журнала:
2022,
Номер
23(1), С. 199 - 224
Опубликована: Март 25, 2022
Like
the
proposal
of
nanotechnology
by
Richard
Feynman,
nanoarchitectonics
concept
was
initially
proposed
Masakazu
Aono.
The
strategy
conceptually
fuses
with
other
research
fields
including
organic
chemistry,
supramolecular
micro/nanofabrication,
materials
science,
and
bio-related
sciences,
aims
to
produce
functional
from
nanoscale
components.
In
this
review
article,
bio-interactive
two-dimensional
environments
are
discussed
as
a
selected
topic.
account
gives
general
examples
for
energy
storage,
catalysis,
biomedical
applications,
followed
explanations
applications
such
biomimetic
nanosheets,
fullerene
assemblies
one-dimensional
nanowhiskers
(FNWs).
discussion
on
in
further
extends
liquid-liquid
interfaces
fluorocarbon-medium
viscous
liquid
new
frontiers
applications.
Controlling
differentiation
stem
cells
at
fluidic
is
also
discussed.
Finally,
conclusive
section
briefly
summarizes
features
discusses
possible
future
perspectives.
