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ligniny

Ligniny, known in English as lignin, is a class of complex phenolic polymers that form a major component of the secondary cell walls of vascular plants. They are synthesized from monolignol precursors—p-coumaryl alcohol, coniferyl alcohol, and sinapyl alcohol—through oxidative coupling to produce a heterogeneous network containing H, G, and S units. The resulting polymer is highly cross-linked, largely hydrophobic, and resistant to enzymatic and microbial degradation, contributing to the rigidity and water-impermeability of plant tissues.

In plants, lignin fills the spaces between cellulose and hemicellulose in the cell wall, providing mechanical

Lignin is ubiquitous in wood and bark and represents one of the most abundant natural polymers on

strength,
compressive
resistance,
and
protection
against
pathogens.
It
also
constrains
the
digestibility
of
plant
biomass,
influencing
the
efficiency
of
processes
that
convert
lignocellulose
to
fuels
or
chemicals.
Lignin
biosynthesis
occurs
via
the
phenylpropanoid
pathway
in
specialized
cells
such
as
fibers
and
vessels,
with
polymerization
driven
by
peroxidases
and
laccases
in
the
cell
wall.
Earth.
Its
relative
abundance
and
complex
structure
make
it
a
major
contributor
to
carbon
storage
in
ecosystems
and
a
significant
source
of
recalcitrance
in
biomass
processing.
Industrially,
lignin
is
a
byproduct
of
chemical
pulping
and
biorefineries,
forming
kraft
lignin,
lignosulfonates,
and
related
streams.
Ongoing
research
focuses
on
lignin
valorization,
aiming
to
convert
it
into
value-added
chemicals,
materials
like
carbon
fibers,
and
sustainable
derivatives
such
as
vanillin.