EcoEnergy,
Journal Year:
2023,
Volume and Issue:
1(2), P. 248 - 295
Published: Dec. 1, 2023
Abstract
In
the
advancing
world
of
graphene,
highly
anisotropic
2D
semiconductor
nanosheets,
notable
for
their
nanometer‐scale
thickness,
have
emerged
as
a
leading
innovation,
displaying
immense
potential
in
exploration
renewable
and
clean
energy
production.
These
garnered
significant
attention
from
researchers.
The
nanosheets
are
marked
by
extraordinary
electronic,
optical,
chemical
attributes,
positioning
them
attractive
foundational
components
heterogeneous
photocatalysts.
This
review
diligently
summarizes
both
seminal
work
ongoing
developments
pertaining
to
application
solar
within
context
photocatalysis.
We
begin
detailing
distinctive
properties
concentrating
on
pivotal
roles
augmenting
photocatalytic
efficiency,
explaining
intrinsic
mechanisms
that
govern
migration
rate
photogenerated
carriers
material's
surface.
Subsequently,
we
delineate
methods
employed
synthesize
typical
nanosheets.
alignment
with
overarching
objective
expanding
light
absorption
capacity
accelerating
charge
transfer,
also
examine
current
research
hybridization
techniques
involving
materials
varied
dimensions,
well
deployment
diverse
applications.
conclude
identifying
promising
avenues
challenges
await
further
this
burgeoning
field.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(23), P. 13489 - 13692
Published: Nov. 14, 2023
As
a
key
structural
parameter,
phase
depicts
the
arrangement
of
atoms
in
materials.
Normally,
nanomaterial
exists
its
thermodynamically
stable
crystal
phase.
With
development
nanotechnology,
nanomaterials
with
unconventional
phases,
which
rarely
exist
their
bulk
counterparts,
or
amorphous
have
been
prepared
using
carefully
controlled
reaction
conditions.
Together
these
methods
are
beginning
to
enable
engineering
(PEN),
i.e.,
synthesis
phases
and
transformation
between
different
obtain
desired
properties
functions.
This
Review
summarizes
research
progress
field
PEN.
First,
we
present
representative
strategies
for
direct
modulation
diverse
kinds
nanomaterials.
We
cover
ranging
from
metal
nanostructures
such
as
Au,
Ag,
Cu,
Pd,
Ru,
alloys;
oxides,
borides,
carbides;
transition
dichalcogenides
(TMDs)
2D
layered
review
growth
wet-chemical
reduction
seed-mediated
epitaxial
chemical
vapor
deposition
(CVD),
high
pressure
transformation,
electron
ion-beam
irradiation.
After
that,
summarize
significant
influence
on
various
unconventional-phase
also
discuss
potential
applications
developed
areas
including
catalysis,
electrochemical
energy
storage
(batteries
supercapacitors),
solar
cells,
optoelectronics,
sensing.
Finally,
existing
challenges
future
directions
Journal of Materials Chemistry A,
Journal Year:
2023,
Volume and Issue:
11(12), P. 6016 - 6063
Published: Jan. 1, 2023
2D
structures
have
numerous
attributes
that
make
them
effective
for
the
fabrication
of
sensing
devices.
The
aim
this
review
is
to
provide
an
update
on
recent
developments
in
field
sensor
devices
made
from
atomically
thin
materials.
ACS Applied Nano Materials,
Journal Year:
2023,
Volume and Issue:
6(7), P. 5042 - 5074
Published: March 31, 2023
Fast
technological
progress
has
sped
up
the
growth
of
telemedicine,
mobile
e-health
services,
and
healthcare
monitoring,
which,
nowadays,
are
technologies
in
high
demand
medical
field
analytical
sensing.
Biosensing
device
design
promoted
forefront
research
topics
wherein
new
sensing
have
been
developed.
In
this
regard,
nanomaterials
had
a
crucial
role
novel
biosensors
based
on
emerged
as
detective
tools
for
several
biomolecules.
Most
remarkably
sensitive
selective
to
detect
cancer
biomarkers,
toxins
foods,
drugs,
pathogenic
microorganisms,
cholesterol,
pesticides,
nucleic
acids,
glucose,
heavy-metal
contaminations,
other
bioanalytes
under
different
platforms
at
extraordinarily
low
concentrations
(nanomolar,
picomolar,
or
femtomolar).
A
comprehensive
review
used
biosensing
is
offered
herein.
Specifically,
offers
point
view,
highlighting
covering
exhaustively
kinds
(<500
nm)
human
diseases
through
biosensing.
sense,
we
organize
them
into
organic,
inorganic,
carbon-based,
thus
offering
guide
selecting
best
nanomaterial
specific
detection.
Further,
it
provides
roadmap
real-time
utilization
commercial
scale.
Also,
addresses
some
aspects
use
applications
The
discussed
paper
highlights
immense
potential
implement
nanocomposites
initial
examination
point-of-care
testing.
EcoEnergy,
Journal Year:
2023,
Volume and Issue:
1(2), P. 248 - 295
Published: Dec. 1, 2023
Abstract
In
the
advancing
world
of
graphene,
highly
anisotropic
2D
semiconductor
nanosheets,
notable
for
their
nanometer‐scale
thickness,
have
emerged
as
a
leading
innovation,
displaying
immense
potential
in
exploration
renewable
and
clean
energy
production.
These
garnered
significant
attention
from
researchers.
The
nanosheets
are
marked
by
extraordinary
electronic,
optical,
chemical
attributes,
positioning
them
attractive
foundational
components
heterogeneous
photocatalysts.
This
review
diligently
summarizes
both
seminal
work
ongoing
developments
pertaining
to
application
solar
within
context
photocatalysis.
We
begin
detailing
distinctive
properties
concentrating
on
pivotal
roles
augmenting
photocatalytic
efficiency,
explaining
intrinsic
mechanisms
that
govern
migration
rate
photogenerated
carriers
material's
surface.
Subsequently,
we
delineate
methods
employed
synthesize
typical
nanosheets.
alignment
with
overarching
objective
expanding
light
absorption
capacity
accelerating
charge
transfer,
also
examine
current
research
hybridization
techniques
involving
materials
varied
dimensions,
well
deployment
diverse
applications.
conclude
identifying
promising
avenues
challenges
await
further
this
burgeoning
field.
