Toward for production of Molybdenum-99 by irradiation of MoO3 target in a neutron flux

Abstract: Background: Molybdenum- 99 is a parent isotope of Technetium-99m (99mTc) as intermediate to diagnosis and radiation treatment. This production is made according to irradiation of Molybdenum-98 with thermal neutrons. The cycle comprises a complex of MoO3 or the percentage of Mo-98 is 24.13%, this compressed mixture in an irradiation capsule of aluminum; the latter is disposed in the central thimble of a nuclear reactor so that the thermal neutron flux is at a maximum in order to generate 98Mo to 99Mo by nuclear… Show more

“…99 Mo + γ-ray). [7][8][9] Another approach separates and purifies the 99 Mo from the nuclear fission products of 235 U. [10][11][12][13][14] The specific activity of the fission method is about 1000 times higher than that of the 99 Mo produced by the former method.…”

“…This 99 Mo, which is the parent nuclide of 99m Tc, has been usually manufactured by using two major methods. The first production method conducts a 98 Mo(n, γ) 99 Mo reaction (n + 98 Mo → 99 Mo + γ‐ray) . Another approach separates and purifies the 99 Mo from the nuclear fission products of 235 U .…”

Synthesis and Characteristics of CuO Immobilized in Porous Alumina for the Removal of Hydrogen Generated by the Fission ⁹⁹Mo Production

“…99 Mo + γ-ray). [7][8][9] Another approach separates and purifies the 99 Mo from the nuclear fission products of 235 U. [10][11][12][13][14] The specific activity of the fission method is about 1000 times higher than that of the 99 Mo produced by the former method.…”

“…This 99 Mo, which is the parent nuclide of 99m Tc, has been usually manufactured by using two major methods. The first production method conducts a 98 Mo(n, γ) 99 Mo reaction (n + 98 Mo → 99 Mo + γ‐ray) . Another approach separates and purifies the 99 Mo from the nuclear fission products of 235 U .…”

Synthesis and Characteristics of CuO Immobilized in Porous Alumina for the Removal of Hydrogen Generated by the Fission ⁹⁹Mo Production

Water extraction of technetium-99m from neutron irradiated porous molybdenum dioxide pellet

New study of spallation reactions (Be + p) and (Sn + p) at 1.2 GeV per nucleon