Journal of CO2 Utilization,
Journal Year:
2022,
Volume and Issue:
68, P. 102355 - 102355
Published: Dec. 21, 2022
With
the
continuous
emission
of
greenhouse
gases,
rational
transformation
and
utilization
CO2
is
particularly
important.
Cyclic
carbonates
are
a
kind
versatile
compounds
have
wide
applications
in
Li-ion
batteries,
pharmaceutical
manufacturing
many
fine
chemicals.
Cycloaddition
epoxide
to
synthesize
cyclic
considered
one
most
promising
conversion
routes
because
its
100%
atomic
economy,
non-toxicity,
as
well
more
economic
technical
route
for
CO2.
In
this
paper,
review
surveys
synthesis
employing
building
block.
The
mechanisms
activation
been
described
detail
due
thermodynamic
stability
molecule.
reaction
mechanism
expounded,
seven
methods
summarized
compared,
deeply
analyzing
research
progress
recent
years.
To
reduce
energy
conversion,
catalysts
very
crucial.
Various
types
suitable
derived
from
expounded
depth.
Finally,
development
trend
prospected.
improved
strongly
demanded
successful
commercialization
technologies.
This
enables
researchers
timely
seize
current
advancements
thus
may
provide
some
rewarding
insights
future
investigations
on
feedstock.
It
will
good
reference
guide
scholars
achieve
better
improvements.
Energy & Environmental Science,
Journal Year:
2018,
Volume and Issue:
11(5), P. 1062 - 1176
Published: Jan. 1, 2018
Carbon
capture
and
storage
(CCS)
is
vital
to
climate
change
mitigation,
has
application
across
the
economy,
in
addition
facilitating
atmospheric
carbon
dioxide
removal
resulting
emissions
offsets
net
negative
emissions.
This
contribution
reviews
state-of-the-art
identifies
key
challenges
which
must
be
overcome
order
pave
way
for
its
large-scale
deployment.
Chemical Reviews,
Journal Year:
2016,
Volume and Issue:
117(10), P. 6834 - 6880
Published: Nov. 28, 2016
Innovative
valorization
of
naturally
abundant
and
renewable
lignocellulosic
biomass
is
great
importance
in
the
pursuit
a
sustainable
future
biobased
economy.
Ionic
liquids
(ILs)
as
an
important
kind
green
solvents
functional
fluids
have
attracted
significant
attention
for
catalytic
transformation
feedstocks
into
diverse
range
products.
Taking
advantage
some
unique
properties
ILs
with
different
functions,
processes
can
be
carried
out
more
efficiently
potentially
lower
environmental
impacts.
Also,
new
product
portfolio
may
derived
from
systems
media.
This
review
focuses
on
chemical
conversion
lignocellulose
its
primary
ingredients
(i.e.,
cellulose,
hemicellulose,
lignin)
value-added
chemicals
fuel
products
using
reaction
An
outlook
provided
at
end
this
to
highlight
challenges
opportunities
associated
interesting
area.
Chemical Reviews,
Journal Year:
2017,
Volume and Issue:
117(10), P. 6636 - 6695
Published: May 10, 2017
Ionic
liquids
(ILs)
offer
a
wide
range
of
promising
applications
because
their
much
enhanced
properties.
However,
further
development
such
materials
depends
on
the
fundamental
understanding
hierarchical
structures
and
behaviors,
which
requires
multiscale
strategies
to
provide
coupling
among
various
length
scales.
In
this
review,
we
first
introduce
properties
these
typical
ILs.
Then,
modeling
methods
that
have
been
applied
ILs,
covering
from
molecular
scale
(QM/MM),
mesoscale
(CG,
DPD),
macroscale
(CFD
for
unit
thermodynamics
COSMO-RS
model
environmental
assessment
GD
method
process
scale).
following
section,
discuss
in
some
detail
four
scales
including
structures,
aggregates
dynamics,
reactor
design
optimization
IL
applications.
Finally,
address
concluding
remarks
predictive
capabilities
The
present
review
aims
summarize
recent
advances
application
Chemical Reviews,
Journal Year:
2016,
Volume and Issue:
117(10), P. 6755 - 6833
Published: Dec. 29, 2016
Ionic
liquids
(ILs)
have
been
widely
investigated
as
novel
solvents,
electrolytes,
and
soft
functional
materials.
Nevertheless,
the
widespread
applications
of
ILs
in
most
cases
hampered
by
their
liquid
state.
The
confinement
into
nanoporous
hosts
is
a
simple
but
versatile
strategy
to
overcome
this
problem.
Nanoconfined
constitute
new
class
composites
with
intrinsic
chemistries
original
functions
solid
matrices.
interplay
between
these
two
components,
particularly
effect
interactions
pore
walls,
further
endows
significantly
distinct
physicochemical
properties
restricted
space
compared
corresponding
bulk
systems.
aim
article
provide
comprehensive
review
nanoconfined
ILs.
After
brief
introduction
ILs,
synthetic
strategies
investigation
methods
for
are
documented.
local
structure
diverse
porous
summarized
next
sections.
final
section
highlights
potential
fields,
including
catalysis,
gas
capture
separation,
ionogels,
supercapacitors,
carbonization,
lubrication.
Further
research
directions
perspectives
on
topic
also
provided
conclusion.
Chemical Society Reviews,
Journal Year:
2018,
Volume and Issue:
47(6), P. 2020 - 2064
Published: Jan. 1, 2018
The
ever-growing
demand
for
advanced
energy
storage
devices
in
portable
electronics,
electric
vehicles
and
large
scale
power
grids
has
triggered
intensive
research
efforts
over
the
past
decade
on
lithium
sodium
batteries.
key
to
improve
their
electrochemical
performance
enhance
service
safety
lies
development
of
electrode,
electrolyte,
auxiliary
materials.
Ionic
liquids
(ILs)
are
consisting
entirely
ions
near
room
temperature,
characterized
by
many
unique
properties
such
as
ultralow
volatility,
high
ionic
conductivity,
good
thermal
stability,
low
flammability,
a
wide
window,
tunable
polarity
basicity/acidity.
These
create
possibilities
designing
batteries
with
excellent
safety,
energy/power
density
long-term
also
provide
better
ways
synthesize
known
IL-derived
materials,
poly(ionic
liquids),
ionogels
IL-tethered
nanoparticles,
retain
most
characteristics
ILs
while
being
endowed
other
favourable
features,
thus
they
have
received
great
deal
attention
well.
This
review
provides
comprehensive
various
applications
derived
materials
including
Li/Na-ion,
dual-ion,
Li/Na-S
Li/Na-air
(O2)
batteries,
particular
emphasis
recent
advances
literature.
Their
enable
them
serve
resources,
medium,
or
ingredient
almost
all
components
electrodes,
liquid
electrolytes,
solid
artificial
solid-electrolyte
interphases,
current
collectors.
Some
thoughts
emerging
challenges
opportunities
presented
this
further
development.
Angewandte Chemie International Edition,
Journal Year:
2015,
Volume and Issue:
55(7), P. 2308 - 2320
Published: Dec. 18, 2015
Abstract
Imidazolium
ionic
liquids
(ILs),
imidazolylidene
N‐heterocyclic
carbenes
(NHCs),
and
zeolitic
imidazolate
frameworks
(ZIFs)
are
motifs
which
have
been
extensively
investigated
for
CO
2
adsorption
conversion
applications.
Summarized
in
this
minireview
is
the
recent
progress
capture,
activation,
photochemical
reduction
of
with
these
three
building
blocks,
from
homogeneous
molecular
entities
(ILs
NHCs)
to
heterogeneous
crystalline
scaffolds
(ZIFs).
The
developments
existing
shortcomings
their
use
utilizations
assessed,
more
focus
on
photoredox
catalysis.
opportunities
challenges
future
advancement
artificial
photosynthesis
discussed.
