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Isomerization

Isomerization is a chemical process in which a single molecular formula is rearranged to form a different isomer—an entity with the same number and types of atoms but a different arrangement. Isomers may differ in connectivity (structural or constitutional isomers) or in spatial arrangement (stereoisomers). Within stereoisomerism, common categories include conformational isomers, geometric (cis/trans or E/Z) isomers, and optical isomers (enantiomers and diastereomers). Tautomerization, widely encountered in biology and organic chemistry, is often considered a subclass in which a proton shifts with reorganization of bonds.

Mechanisms: isomerization can proceed by various pathways. Thermal or photochemical energy can drive rearrangements, and reactions

Examples: the interconversion between chair conformations of alkanes like butane; cis-trans isomerization around double bonds such

Significance: isomerization underpins many biological processes (isomerases), materials science (light-responsive compounds), and synthetic chemistry, where control

may
proceed
via
simple
bond
rotations,
intramolecular
shifts,
or
via
catalysts
such
as
acids,
bases,
or
enzymes.
Energy
barriers
determine
whether
the
product
is
thermodynamically
favored
or
kinetically
accessible,
producing
mixtures
or
selectively
formed
products
under
control
of
conditions.
as
cis-2-butene
to
trans-2-butene;
photoisomerization
of
azobenzene,
used
as
a
molecular
switch;
retinal
isomerization
in
vision,
where
light-induced
isomerization
of
a
C=C
around
the
polyene
chain
triggers
a
signaling
cascade.
over
isomer
distribution
affects
reactivity
and
properties.