Evaluating the Sorption Affinity of Low Specific Activity 99Mo on Different Metal Oxide Nanoparticles

Abstract: 99Mo/99mTc generators are mainly produced from 99Mo of high specific activity generated from the fission of 235U. Such a method raises proliferation concerns. Alternative methods suggested the use of low specific activity (LSA) 99Mo to produce 99mTc generators. However, its applicability is limited due to the low adsorptive capacity of conventional adsorbent materials. This study attempts to investigate the effectiveness of some commercial metal oxides nanoparticles as adsorbents for LSA 99Mo. In a batch equil… Show more

“…Newar et al [19], instead, tested the use of different commercial (metal) oxide nanoparticles as sorbing systems against low specific activity 99 Mo radiotracer solution. The commercial (metal) oxides investigated were: silica, titania, zirconium oxide, cerium oxide, tin oxide, and mixed systems, such as an aluminosilicate, cerium aluminum oxide, aluminum titanium oxide, and cerium zirconium oxide.…”

New Advances into Nanostructured Oxides

“…Newar et al [19], instead, tested the use of different commercial (metal) oxide nanoparticles as sorbing systems against low specific activity 99 Mo radiotracer solution. The commercial (metal) oxides investigated were: silica, titania, zirconium oxide, cerium oxide, tin oxide, and mixed systems, such as an aluminosilicate, cerium aluminum oxide, aluminum titanium oxide, and cerium zirconium oxide.…”

New Advances into Nanostructured Oxides

Molybdenum-99 from Molten Salt Reactor as a Source of Technetium-99m for Nuclear Medicine: Past, Current, and Future of Molybdenum-99

Sorption behavior of low specific activity ⁹⁹Mo on Ti- and Zr-xerogels as an alternative to fission-based ⁹⁹Mo/^99mTc generators