Home

transuranics

Transuranics are chemical elements with atomic numbers greater than 92, the element beyond uranium in the periodic table. Most transuranics are synthetic, produced in nuclear reactors or particle accelerators, though trace natural occurrences can arise in uranium ore or from cosmic processes. The category includes a broad range of elements from neptunium (93) onward to the heavier, named elements, many of which have short-lived or long-lived radioactive isotopes.

The first transuranic element discovered was neptunium in 1940, followed by plutonium and other synthetic actinides

Transuranics are generally highly radioactive and chemically resemble the actinides, exhibiting multiple oxidation states and complex

Common examples and uses include plutonium-239, a fissile material used in nuclear reactors and some weapons;

developed
during
or
shortly
after
World
War
II.
Production
in
reactors
typically
begins
with
neutron
capture
on
uranium-238,
followed
by
beta
decays
that
build
up
heavier
transuranics
such
as
plutonium,
americium,
curium,
and
beyond.
Reprocessing
of
spent
nuclear
fuel
concentrates
these
elements,
which
can
then
be
recycled
or
disposed
of.
chemistry.
Many
have
long
half-lives,
contributing
to
long-term
radiological
hazards.
Their
radiotoxicity
is
predominantly
alpha
radiation,
which
requires
careful
containment
and
shielding.
Because
of
their
chemistry
and
radioactivity,
handling
and
containment
require
specialized
facilities
and
procedures.
americium-241,
widely
employed
in
smoke
detectors
and
as
a
source
of
gamma
radiation;
and
californium-252
or
curium
isotopes
used
as
neutron
sources
in
research
and
industry.
In
waste
management,
transuranics
constitute
a
major
portion
of
long-lived
radioactive
waste,
necessitating
careful
isolation
in
deep
geological
repositories
and
strict
regulatory
controls.