Add to ORKGAbstract of WO 2009148306 (A1) The present invention relates to a process for the production of no-carrier added 99Mo by neutron activation of 98Mo thereby reaching specific radioactivity which allow the use of such produced 99Mo as an option for the 99Mo produced by the fission of 235U. This has been achieved by taking advantage of the recoil of the 99Mo nuclei upon the capture of neutrons by the 98Mo containing compound. These recoiled nuclei are no longer chemically bound to the 98Mo containing compound allowing further specific separation. Preferred 98Mo containing compounds are molybdenum(0)hexacarbonyl [ (Mo (CO) 6] and molybdenum (VI ) di oxodioxinate [C4H3 (O) -NC5H3) J2-MoO2.Radiation, Radionuclides and ReactorsApplied Science
We, for the first time, measured the yield of 99Mo, the mother nuclide of 99mTc used in nuclear medi...
The most important radioisotope for nuclear medicine is 99mTc. After the supply crisis of 99Mo start...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
Technetium-99m (T1/2= 6 h) is the most commonly used radioisotope in nuclear medicine accounting for...
A new process was developed to recover high specific activity (no carrier added) 99Mo from electron-...
At present, there are two ways to produce 99Mo in a reactor: 1) fission process—from U fission produ...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
This paper discusses the benefits of obtaining 99mTc from non–fission reactor–produced low-specific-...
The current global crisis in supply of the medical isotope generator 99Mo/99mTc has triggered much r...
A neutron source from the C(d,n) reaction has the unique capability of producing medical radioisotop...
Molybdenum-99 is one of the most important radionuclides for medical diagnostics. In 2015, the Inter...
A closed-loop technology aiming at recycling the highly 100Mo-enriched molybdenum target material ha...
A 99% recovery of an enriched 100MoO3 sample weighing over 100 g was achieved for the first time aft...
The subject of this paper is to explore the possibility to obtain 99mTc from activation of 98Mo, usi...
We, for the first time, measured the yield of 99Mo, the mother nuclide of 99mTc used in nuclear medi...
The most important radioisotope for nuclear medicine is 99mTc. After the supply crisis of 99Mo start...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
Technetium-99m (T1/2= 6 h) is the most commonly used radioisotope in nuclear medicine accounting for...
A new process was developed to recover high specific activity (no carrier added) 99Mo from electron-...
At present, there are two ways to produce 99Mo in a reactor: 1) fission process—from U fission produ...
A new production method of 99Mo using accelerator neutrons via the 100Mo(n,2n)99Mo reaction was prop...
This paper discusses the benefits of obtaining 99mTc from non–fission reactor–produced low-specific-...
The current global crisis in supply of the medical isotope generator 99Mo/99mTc has triggered much r...
A neutron source from the C(d,n) reaction has the unique capability of producing medical radioisotop...
Molybdenum-99 is one of the most important radionuclides for medical diagnostics. In 2015, the Inter...
A closed-loop technology aiming at recycling the highly 100Mo-enriched molybdenum target material ha...
A 99% recovery of an enriched 100MoO3 sample weighing over 100 g was achieved for the first time aft...
The subject of this paper is to explore the possibility to obtain 99mTc from activation of 98Mo, usi...
We, for the first time, measured the yield of 99Mo, the mother nuclide of 99mTc used in nuclear medi...
The most important radioisotope for nuclear medicine is 99mTc. After the supply crisis of 99Mo start...
A plan of an advanced fusion neutron source (A-FNS) by using d-Li reaction is in progress at Rokkash...