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ionpair

An ion pair is a pair of oppositely charged ions that associate in solution or in a solid lattice due to electrostatic attraction, collectively behaving as a single unit under certain conditions. In solution chemistry, ion pairing can influence reaction rates, selectivity, and solvation phenomena, especially in solvents with limited dielectric strength where Coulombic interactions are less screened.

Ion pairs are typically classified by the degree of direct contact between ions. Contact ion pairs (CIP)

Formation and stability of ion pairs depend on solvent dielectric constant, ion size and charge density, temperature,

Detection and implications: Conductivity measurements reveal reduced ionic mobility when pairing occurs; spectroscopic techniques such as

involve
no
solvent
molecules
between
the
ions;
there
is
direct
ionic
contact.
Solvent-shared
ion
pairs
(SSHIP)
have
one
or
more
solvent
molecules
positioned
between
the
ions,
which
are
nevertheless
mutually
associated.
Solvent-separated
ion
pairs
(SSIP)
have
sufficient
solvent
separation
that
the
ions
are
effectively
solvated
and
behave
as
independent
species,
with
only
a
weak
residual
interaction
between
them.
concentration,
and
the
presence
of
ligands
or
coordinating
solvents.
Lower
dielectric
solvents
and
higher
charge
density
promote
stronger
ion
pairing;
higher
dielectric
solvents
like
water
promote
dissociation.
The
extent
of
pairing
is
described
by
a
formation
constant,
K_ip,
which
can
be
determined
experimentally
or
via
computational
methods.
NMR
or
UV-Vis
can
provide
evidence
under
suitable
conditions.
Ion
pairing
affects
phase-transfer
catalysis,
electrochemistry,
and
crystallization,
and
influences
solubility
and
reactivity
of
salts.
Examples
include
alkali
halide
salts
forming
CIP
in
nonpolar
solvents
like
acetonitrile,
whereas
in
water
ions
exist
predominantly
as
fully
solvated,
dispersed
species.
See
also
solvation,
electrolytes,
and
ion-solvation
theory.