Green Chemistry,
Год журнала:
2024,
Номер
26(6), С. 3072 - 3124
Опубликована: Янв. 1, 2024
Ionic
liquids
as
additives
in
nanoparticles
influence
their
morphology
and
enhance
bioactivity,
highlighting
key
role
sustainable
chemistry,
a
major
environmental
advance.
Green Chemistry,
Год журнала:
2023,
Номер
25(4), С. 1237 - 1260
Опубликована: Янв. 1, 2023
The
interplay
among
the
properties
of
catalysts,
substrates,
products,
and
ionic
liquids
(ILs)
for
a
desired
selective
reaction
is
presented
with
selected
examples.
A
guide
to
select
most
adequate
IL
catalytic
device
proposed.
Abstract
In
the
spirit
of
circular
economy
and
sustainable
chemistry,
use
environmentally
friendly
chemical
products
in
pharmacy
has
become
a
hot
topic.
recent
years,
organic
solvents
have
been
subject
great
range
restriction
policies
due
to
their
harmful
effects
on
environment
toxicity
human
health.
parallel,
deep
eutectic
(DESs)
emerged
as
suitable
greener
with
beneficial
environmental
impacts
rich
palette
physicochemical
advantages
related
low
cost
biocompatibility.
Additionally,
DESs
can
enable
remarkable
solubilizing
effect
for
several
active
pharmaceutical
ingredients
(APIs),
thus
forming
therapeutic
(TheDESs).
this
work,
special
attention
is
paid
DESs,
presenting
precise
definition,
classification,
methods
preparation,
characterization.
A
description
natural
(NaDESs),
i.
e.,
present
sources,
also
reported.
Moreover,
review
article
first
one
detail
different
approaches
judiciously
selecting
constituents
order
minimize
number
experiments.
The
role
biomedical
sectors
impact
development
successful
therapies
are
discussed.
Abstract
As
one
of
the
key
components
supercapacitors,
electrolyte
is
intensively
investigated
to
promote
fast
development
energy
supply
system
under
extremely
cold
conditions.
However,
high
freezing
point
and
sluggish
ion
transport
kinetics
for
routine
electrolytes
hinder
application
supercapacitors
at
low
temperatures.
Resultantly,
liquid
should
be
oriented
reduce
point,
accompanied
by
other
superior
characteristics,
such
as
large
ionic
conductivity,
viscosity
outstanding
chemical
stability.
In
this
review,
intrinsically
physical
parameters
microscopic
structure
low‐temperature
are
discussed
thoroughly,
then
previously
reported
strategies
that
used
address
associated
issues
summarized
subsequently
from
aspects
aqueous
non‐aqueous
(organic
electrolyte).
addition,
some
advanced
spectroscopy
techniques
theoretical
simulation
better
decouple
solvation
reveal
link
between
briefly
presented.
Finally,
further
improvement
direction
put
forward
provide
a
reference
guidance
follow‐up
research.
Antioxidants,
Год журнала:
2024,
Номер
13(2), С. 239 - 239
Опубликована: Фев. 15, 2024
Carotenoids
are
ubiquitous
and
versatile
isoprenoid
compounds.
The
intake
of
foods
rich
in
these
pigments
is
often
associated
with
health
benefits,
attributable
to
the
provitamin
A
activity
some
them
different
mechanisms.
importance
carotenoids
their
derivatives
for
production
health-promotion
through
diet
beyond
doubt.
In
new
circular
economy
paradigm,
recovery
biorefinery
process
highly
desirable,
which
greener
processes
solvents
being
advocated
for,
considering
many
studies
conducted
at
laboratory
scale.
This
review
summarizes
information
on
extraction
technologies
(ultrasound,
microwaves,
pulsed
electric
fields,
pressurized
liquid
extraction,
sub-
supercritical
fluid
enzyme-assisted
extraction)
green
(ethyl
lactate,
2-methyltetrahydrofuran,
natural
deep
eutectic
solvents,
ionic
liquids),
potential
substitutes
more
toxic
less
environmentally
friendly
solvents.
Additionally,
it
discusses
results
latest
sustainable
carotenoids.
conclusions
drawn
from
indicate
that
while
promising,
scalability
real
industrial
scenarios
poses
a
significant
challenge.
Furthermore,
incorporating
life
cycle
assessment
analyses
crucial
comprehensive
evaluation
sustainability
innovative
compared
industry-standard
methods.
npj Materials Sustainability,
Год журнала:
2024,
Номер
2(1)
Опубликована: Май 15, 2024
Abstract
Biomass
processing
employing
ionic
liquids
is
already
an
established
option
at
the
laboratory
scale.
Ionic
can
disrupt
and
deconstruct
lignocellulosic
biomass
network,
giving
rise
to
multiple
options
for
valorisation.
However,
there
still
much
work
remaining
accomplish
scale-up
commercialisation
of
liquid-based
processing.
Important
issues
such
as
liquid
cost
recyclability,
among
others,
need
be
carefully
addressed.
In
addition,
modify
structure
properties
recovered
materials,
impacting
potential
applications.
Due
complex
nature
liquids,
where
combinations
anions
cations
are
possible,
these
should
considered
each
process
application,
making
it
difficult
generalise
all
cases.
This
perspective
covers
main
challenges
opportunities
in
employment
processing,
both
stage
valorisation
fractions.
Among
them,
we
discuss
importance
solvent
recovery
costs
two
critical
consider
well
major
role
lignin
condensation
plays
hindering
ionoSolv
different
approaches
valorise
cellulose.
Analytica—A Journal of Analytical Chemistry and Chemical Analysis,
Год журнала:
2025,
Номер
6(1), С. 10 - 10
Опубликована: Март 11, 2025
Green
analytical
chemistry
represents
a
transformative
approach
to
science,
emphasizing
sustainability
and
environmental
stewardship
while
maintaining
high
standards
of
accuracy
precision.
This
review
highlights
recent
innovations
in
green
chemistry,
including
the
use
solvents,
such
as
water,
supercritical
carbon
dioxide,
ionic
liquids,
bio-based
alternatives,
well
energy-efficient
techniques
like
microwave-assisted,
ultrasound-assisted,
photo-induced
processes.
Advances
instrumentation,
miniaturized
portable
devices,
integration
automation
chemometric
tools,
have
further
enhanced
efficiency
reduced
footprint
workflows.
Despite
these
advancements,
challenges
remain,
need
balance
performance
with
eco-friendliness
lack
global
measure
promote
sustainable
practices
consistently.
However,
future
looks
promising,
emerging
technologies
artificial
intelligence
digital
tools
offering
new
ways
optimize
workflows,
minimize
waste,
streamline
By
focusing
on
areas,
is
transforming
methodologies
into
that
not
only
achieve
but
also
align
goals.
underscores
how
more
than
just
scientific
discipline,
pathway
for
reducing
ecological
impact
processes
driving
innovation
science
industry.
With
continued
commitment
research,
collaboration,
adoption
cutting-edge
technologies,
has
potential
shape
greener
its
diverse
applications.
International Journal of Molecular Sciences,
Год журнала:
2022,
Номер
23(19), С. 11401 - 11401
Опубликована: Сен. 27, 2022
The
increasing
concentration
of
CO2
in
the
atmosphere
is
related
to
global
climate
change.
Carbon
capture,
utilization,
and
storage
(CCUS)
an
important
technology
reduce
emissions
deal
with
development
new
materials
technologies
for
efficient
capture
has
received
attention
among
researchers.
Ionic
liquids
(ILs),
especially
functionalized
ILs,
such
unique
properties
as
almost
no
vapor
pressure,
thermal-
chemical-stability,
non-flammability,
tunable
properties,
have
been
used
CCUS
great
interest.
This
paper
focuses
on
ILs
past
decade
(2012~2022).
Functionalized
or
task-specific
are
active
sites
cations
or/and
anions.
main
contents
include
three
parts:
cation-functionalized
anion-functionalized
cation-anion
dual-functionalized
capture.
In
addition,
classification,
structures,
synthesis
also
summarized.
Finally,
future
directions,
concerns,
prospects
discussed.
review
beneficial
researchers
obtain
overall
understanding
CO2-philic
ILs.
work
will
open
a
door
develop
novel
IL-based
solvents
separation
other
gases,
SO2,
H2S,
NOx,
NH3,
so
on.