Understanding fundamental uranyl polyoxometalate
(POM) chemistry in solution and the solid state is
the first step to defining its future role in the development
of new actinide materials and separation processes
that are vital to every step of the nuclear fuel cycle. Many
solid-state geometries of uranyl POMs have been...
Understanding fundamental uranyl polyoxometalate
(POM) chemistry in solution and the solid state is
the first step to defining its future role in the development
of new actinide materials and separation processes
that are vital to every step of the nuclear fuel cycle. Many
solid-state geometries of uranyl POMs have been...
Understanding fundamental uranyl polyoxometalate
(POM) chemistry in solution and the solid state is
the first step to defining its future role in the development
of new actinide materials and separation processes
that are vital to every step of the nuclear fuel cycle. Many
solid-state geometries of uranyl POMs have been...