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electronassisted

Electronassisted is an adjective used in scientific literature to describe processes, reactions, or fabrication techniques in which electrons play an active facilitating role. The term is not a formal field but a cross-disciplinary descriptor applied wherever electron involvement lowers activation barriers, transfers energy, or triggers chemical transformations.

In physics and nanoscience, electronassisted phenomena include electron-assisted tunneling, where electron energy or inelastic scattering enables

In chemistry and materials science, electronassisted deposition and reactions refer to processes powered or enhanced by

Applications and considerations: The approach enables precise patterning, low-temperature synthesis, and the study of reaction mechanisms

See also: Electron beam lithography, Electron microscopy, Electron-induced chemistry.

transitions
through
barriers;
in
molecular
electronics,
electrons
injected
by
a
contact
can
excite
or
reorient
molecules
to
enable
conduction
or
switching.
Electron
irradiation
can
also
drive
rearrangements
in
nanoscale
systems
via
beam-induced
processes.
electron
energy,
such
as
electron-beam
induced
deposition
(EBID)
or
electron-stimulated
surface
reactions.
In
EBID,
a
focused
electron
beam
decomposes
adsorbed
precursor
molecules
on
a
substrate,
facilitating
material
deposition
with
spatial
control.
Electron-assisted
reactions
under
irradiation
are
used
to
tailor
surfaces,
synthesize
nanomaterials,
or
modify
catalytic
activity
through
targeted
electron
transfer
or
bond
cleavage.
under
controlled
electron
flux.
Limitations
include
beam-induced
damage,
contamination
from
residual
adsorbates,
and
the
need
to
manage
dose,
energy,
and
environment
to
avoid
unwanted
side
reactions.
The
term
emphasizes
the
role
of
electrons
rather
than
a
fixed
method.