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methylolphenols

Methylolphenols, also called hydroxymethylphenols, are phenolic compounds in which a hydroxymethyl group (-CH2OH) is attached to an aromatic ring. They exist as mono-substituted derivatives and are commonly described by the position of the hydroxymethyl group relative to the phenolic OH group: o-, m-, and p-methylolphenol.

Production of methylolphenols typically involves the reaction of phenol with formaldehyde in the presence of a

Chemically, the CH2OH group in methylolphenols is reactive and can undergo condensation with other methylol groups

Applications of methylolphenols center on their role as building blocks for phenol-formaldehyde resins. These resins are

Safety considerations include the potential release of formaldehyde under certain conditions; appropriate ventilation and standard chemical

base
or
a
mildly
acidic
catalyst.
The
process
adds
CH2OH
groups
to
the
ring,
yielding
mixtures
of
methylol
derivatives
with
varying
degrees
of
methylolation.
In
industrial
phenol-formaldehyde
resin
chemistry,
methylolphenols
are
important
intermediates;
under
different
formulations
they
contribute
to
resin
systems
known
as
resols
(excess
formaldehyde)
or
novolacs
(limited
formaldehyde).
or
with
phenolic
rings
to
form
methylene
bridges
or
ether
linkages.
The
ring
hydroxyl
also
influences
reactivity,
enabling
further
substitution
and
cross-linking.
widely
used
as
adhesives,
coatings,
and
molding
materials
in
wood
products
and
composites.
As
intermediates,
methylolphenols
contribute
to
the
curing
behavior
and
cross-link
density
of
PF
resins
and
related
hydroxymethylated
phenolic
polymers.
hygiene
practices
are
recommended
when
handling
methylolphenols.