Home

metallocarboxypeptidases

Metallocarboxylates are compounds in which a metal center is coordinated by carboxylate ligands derived from carboxylic acids. They encompass discrete metal carboxylate complexes as well as extended networks such as coordination polymers and metal-organic frameworks. The carboxylate ligand can bind in multiple modes, including terminal bidentate and various μ-bridging arrangements, generating diverse structures across the periodic table.

Bonding and structure commonly involve strong M–O bonds formed by the carboxylate group. Bridging modes enable

Synthesis and occurrence typically proceed by reacting a metal salt or oxide with a carboxylate source, such

Properties and applications vary widely but many metallocarboxylates are sparingly soluble in water and their behavior

In materials chemistry, metal carboxylate motifs are central to metal-organic frameworks and coordination polymers, where carboxylate

the
formation
of
polynuclear
cores
and
three-dimensional
networks
in
many
samples.
Infrared
spectroscopy
often
reveals
characteristic
carboxylate
stretches
whose
patterns
reflect
the
binding
mode,
helping
distinguish
bridged
versus
terminal
coordination.
as
a
sodium
or
ammonium
carboxylate,
or
by
direct
salt
metathesis
with
carboxylic
acid
salts.
These
reactions
can
be
conducted
in
solution
or
under
solvothermal/hydrothermal
conditions
to
yield
crystalline
materials.
Metallocarboxylates
are
common
across
alkali,
alkaline
earth,
transition,
and
lanthanide
families,
with
stability
and
reactivity
depending
on
the
metal
and
the
particular
carboxylate.
is
strongly
influenced
by
the
metal
center.
They
serve
as
catalysts
or
precursors
in
polymerization
and
oxidation
reactions,
as
stabilizers
and
additives
in
polymers,
and
as
precursors
to
metal
oxides
upon
heating.
Notable
examples
include
calcium
acetate,
zinc
stearate,
and
aluminum
octoate.
linkers
connect
metal
nodes
to
form
porous,
crystalline
structures.