Magnetically Induced Catalysis: Definition, Advances, and Potential
Angewandte Chemie International Edition,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 18, 2025
Abstract
The
rapidly
growing
importance
of
electrification
in
the
chemical
industry
opens
room
for
disruptive
innovations
regarding
energy
input
into
catalytic
processes.
Energy
efficiency
and
dynamics
renewable
supplies
represent
important
challenges,
but
design
systems
to
cope
with
such
new
frameworks
may
also
stimulate
discovery
catalyst
materials
reaction
pathways.
In
this
context,
many
opportunities
arise
when
catalysts
are
activated
a
rapid,
localized,
energy‐efficient
manner.
Among
various
concepts
achieve
adaptivity
catalysis,
magnetic
induction
heating
applied
directly
at
or
vicinity
active
site
has
gained
increasing
attention
recently.
Scientific
Perspective,
we
provide
coherent
framework
emerging
field
catalysis
using
fields—and
particular
alternating
current
fields—to
activate
define
it
as
magnetically
induced
.
Promising
approaches
selected
examples
described
illustrate
scientific
concept
highlight
its
broad
potential
innovation
from
laboratory
industrial
scale.
Язык: Английский
Magnetically Induced Catalysis: Definition, Advances, and Potential
Angewandte Chemie,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 18, 2025
Abstract
The
rapidly
growing
importance
of
electrification
in
the
chemical
industry
opens
room
for
disruptive
innovations
regarding
energy
input
into
catalytic
processes.
Energy
efficiency
and
dynamics
renewable
supplies
represent
important
challenges,
but
design
systems
to
cope
with
such
new
frameworks
may
also
stimulate
discovery
catalyst
materials
reaction
pathways.
In
this
context,
many
opportunities
arise
when
catalysts
are
activated
a
rapid,
localized,
energy‐efficient
manner.
Among
various
concepts
achieve
adaptivity
catalysis,
magnetic
induction
heating
applied
directly
at
or
vicinity
active
site
has
gained
increasing
attention
recently.
Scientific
Perspective,
we
provide
coherent
framework
emerging
field
catalysis
using
fields—and
particular
alternating
current
fields—to
activate
define
it
as
magnetically
induced
.
Promising
approaches
selected
examples
described
illustrate
scientific
concept
highlight
its
broad
potential
innovation
from
laboratory
industrial
scale.
Язык: Английский
Interpretable Machine Learning for Optimizing Carbon Source Design to Enhance Bioethanol Yield in Gas Fermentation
Fuel,
Год журнала:
2025,
Номер
400, С. 135738 - 135738
Опубликована: Май 22, 2025
Язык: Английский
Sustainable Bifunctional Electrospun Hybrid Nanofibers for CO2 Capture and Conversion
Macromolecular Rapid Communications,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 27, 2025
Abstract
Bifunctional
nanofibers
for
CO
2
capture
and
conversion
can
be
fabricated
by
electrospinning.
Using
advanced
methods
like
side‐by‐side
electrospinning
enables
the
integration
of
multiple
independent
functionalities.
The
combination
poly(ethylene
oxide)
(PEO)
modified
with
imine)
(PEI)
PEO
loaded
copper
nanoparticles
(CuNP)
catalysis
results
in
bifunctional
fibers
that
synthesized
using
water
as
a
green
solvent.
are
characterized
scanning
electron
microscopy,
thermogravimetric
analysis,
differential
calorimetry.
properties
illustrated
gas
adsorption
catalytic
experiments.
production
via
leads
to
materials
orthogonal
adjusted
optimized
independently.
introduced
imine
groups
,
which
directly
converted
methanol
hydrogenation
at
CuNP
low
temperature
150
°C.
Язык: Английский