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doublebondforming

Doublebondforming refers to chemical processes that create a double bond, most often a carbon–carbon double bond (C=C), between two adjacent atoms. It is a key step in constructing alkenes and other unsaturated systems.

Common routes include dehydrogenation, dehydration, and elimination reactions. Dehydrogenation removes two hydrogen atoms from neighboring carbon

Mechanistically, forming a pi bond involves reorganization of electrons and the formation of a pi bond through

Examples include industrial production of ethene by dehydrogenation of ethane; dehydration of ethanol to yield ethene;

Considerations in doublebondforming include regioselectivity and stereochemistry (cis/trans arrangements), competing reactions that may reduce yield or

atoms
or
from
a
saturated
fragment;
dehydration
removes
a
water
molecule
from
an
alcohol
to
form
an
alkene;
elimination
reactions,
such
as
E1
or
E2,
remove
a
leaving
group
and
a
hydrogen
to
generate
a
double
bond.
overlap
of
adjacent
p
orbitals
after
rehybridization
from
sp3
to
sp2
in
the
carbon
atoms
involved.
Conditions
such
as
heat,
acid
catalysts,
or
transition-metal
catalysts
lower
the
energy
barrier
and
enable
the
formation
of
the
double
bond
under
practical
conditions.
biological
desaturation
of
fatty
acids
by
desaturase
enzymes;
and
various
synthetic
routes
in
organic
synthesis
that
install
alkenes
at
defined
positions.
alter
structure,
catalyst
choice,
and
safety
and
environmental
aspects
associated
with
the
reagents
and
products
involved.