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bondsionic

Bondsionic is a proposed state of interaction in which the dynamics of chemical bonding and ionic motion are tightly coupled, producing coordinated rearrangements of bonds as mobile ions migrate. In this framework, bonds are not static features of a lattice but participate in a transferable, partially ionic character that accompanies ionic transport. The term blends "bond" and "ionic" to describe a coupling between bond-order fluctuations and ion diffusion, with the aim of explaining transport phenomena in certain solids.

It is discussed mainly in theoretical and speculative contexts relating to solid-state chemistry and materials science.

Investigations employ computational methods such as density functional theory and ab initio molecular dynamics, alongside spectroscopic

Applications, if validated, could inform design principles for more efficient solid electrolytes and ion-conducting materials, enabling

Potentially
relevant
systems
include
solid
electrolytes,
perovskite-like
oxides,
and
metal-organic
or
covalent-organic
frameworks
where
dynamic
bonding
environments
interact
with
mobile
charge
carriers.
In
this
view,
transient
bond
rearrangements
accompany
ion
hops,
effectively
coupling
electronic
structure
to
diffusion
pathways
and
possibly
lowering
activation
barriers
for
movement.
techniques
capable
of
capturing
rapid
bond
fluctuations
and
ion
motion.
Researchers
seek
signatures
of
synchronized
bond-order
changes
with
diffusion
events,
for
example
correlated
shifts
in
vibrational
modes
and
local
geometry
during
ion
transport.
The
approach
remains
controversial,
and
clear
experimental
confirmation
is
an
active
area
of
debate.
improved
battery
performance
and
sensors.
Critics
warn
that
the
concept
may
describe
already-known
coupling
between
lattice
dynamics
and
diffusion,
rather
than
a
distinct
"bondonic"
mechanism.
Proponents
emphasize
that
explicit
demonstration
of
concerted
bond
reorganization
would
represent
a
new
mode
of
charge
transport.