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epsilonlactone

Epsilonlactone, or epsilon-lactone, is a seven-membered cyclic ester (a lactone). In lactone nomenclature, the Greek letters indicate ring size, with gamma-, delta-, and epsilon-lactones corresponding to five-, six-, and seven-membered rings, respectively. The best-known member is epsilon-caprolactone, commonly called caprolactone, which serves as a monomer for biodegradable polyesters.

Structure and basic properties: The seven-membered ring comprises six carbon atoms and one oxygen atom; the

Synthesis: Epsilon-lactones are typically prepared by intramolecular esterification (lactonization) of omega-hydroxycarboxylic acids (HO-(CH2)n-CO2H) under dehydrating conditions.

Applications and reactivity: Epsilon-lactones readily undergo ring-opening polymerization, yielding polyesters such as polycaprolactone, which is used

carbonyl
carbon
is
part
of
the
ring,
giving
a
lactone
functional
group
with
two
oxygens
(one
carbonyl,
one
ether).
Its
molecular
formula
is
C6H10O2.
Epsilon-caprolactone
is
a
key
precursor
in
polymer
chemistry
and
participates
readily
in
ring-opening
polymerization
under
appropriate
catalysts
and
conditions.
Industrially,
epsilon-caprolactone
is
commonly
prepared
by
Baeyer–Villiger
oxidation
of
cyclohexanone,
which
inserts
an
oxygen
to
yield
caprolactone,
followed
by
purification.
in
biodegradable
plastics,
drug
delivery,
and
tissue
engineering.
They
can
copolymerize
with
other
lactones
and
comonomers.
The
ring’s
relatively
low
strain
compared
with
smaller
lactones
influences
reactivity
and
hydrolytic
stability.
Safety
follows
standard
chemical
handling
guidelines.