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squarate

Squarate is the common name for the squarate dianion, C4O4^2−, the fourfold deprotonated form of squaric acid. Squaric acid is a cyclobutane-1,2,3,4-tetracarboxylic acid, and the squarate unit is its core anionic fragment. The term also covers salts and derivatives derived from squaric acid, including squarate esters and related compounds.

The squarate anion is typically planar and highly conjugated, with the negative charge delocalized over the

Derivatives of squarate include squaric acid diesters (squarates) and other esters, which are widely used in

In summary, squarate refers to the squarate dianion and its derivatives, a versatile scaffold in coordination

four
carbonyl
oxygens.
In
coordination
chemistry,
squarate
acts
as
an
oxygen-donor
ligand
that
can
bind
metals
at
multiple
sites.
Depending
on
the
metal
and
conditions,
it
can
function
as
a
tetradentate
or
multidentate
bridge,
linking
two
or
more
metal
centers
and
enabling
the
formation
of
coordination
polymers,
clusters,
and
metal-organic
frameworks.
The
ligand’s
redox-active
nature
also
allows
for
various
oxidation
states
within
complexes.
organic
synthesis
and
materials
science.
Squarate
esters
are
particularly
valued
as
electrophilic
crosslinkers
for
amine-containing
substrates;
reaction
with
amines
yields
squaramide
linkages,
a
motif
found
in
polymers,
bioconjugates,
and
supramolecular
assemblies.
The
versatility
of
the
squarate
core
arises
from
its
combination
of
multiple
carbonyl
groups,
planarity,
and
ability
to
participate
in
both
coordination
and
covalent
bonding.
chemistry,
materials
science,
and
organic
synthesis.