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tricarboxylates

Tricarboxylates are chemical species that contain three carboxylate groups (−COO−) or three carboxyl functional sites within a single molecule. In practice, the term is commonly used for deprotonated triprotic carboxylic acids and for ligands that present three carboxylate binding sites. These compounds often act as multidentate ligands in coordination chemistry, capable of linking multiple metal centers.

Common examples include citrate, the tricarboxylate form of citric acid, and benzene-1,3,5-tricarboxylate (trimesate), derived from trimesic

Occurrence and uses vary by example. Citric acid and its citrate salts occur naturally in citrus fruits

Properties of tricarboxylates depend on structure and environment. They are typically triprotic or possess multiple deprotonation

acid.
Citric
acid
has
three
carboxyl
groups
and
one
hydroxyl
group;
when
deprotonated
to
citrate,
it
forms
a
trianionic
species
with
three
carboxylate
sites
that
can
coordinate
metals
and
complex
with
cations
such
as
calcium
or
magnesium.
Trimesate
ligands
feature
three
carboxylate
groups
arranged
on
an
aryl
core
and
are
widely
used
to
construct
metal–organic
frameworks
(MOFs)
and
other
coordination
polymers
due
to
their
ability
to
bridge
several
metal
centers.
and
are
used
industrially
as
buffering
agents,
sequestrants,
and
food
additives.
Trimesate
and
related
tricarboxylate
ligands
are
extensively
employed
in
materials
chemistry
to
build
porous
frameworks,
catalysis
platforms,
and
supramolecular
assemblies.
steps,
with
pKa
values
reflecting
the
three
acidity
stages.
In
coordination
complexes,
the
carboxylate
groups
adopt
various
binding
modes,
including
monodentate,
bidentate,
and
bridging,
enabling
diverse
geometries
and
network
architectures.