<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" id="M1"><mml:mrow><mml:mmultiscripts><mml:mrow><mml:mtext mathvariant="bold">Tc</mml:mtext></mml:mrow></mml:mmultiscripts></mml:mrow></mml:math>Generator Development: Up-to-Date<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" id="M2"><mml:mrow><mml:mmultiscripts><mml:mrow><mml:mtext mathvariant="bold">Tc</mml:mtext></mml:mrow></mml:mmultiscripts></mml:mrow></mml:math>Recovery Technologies for Increasing the Effectiveness of<mml:math xmlns:mml

Le, Van So

doi:10.1155/2014/345252

Cited by 16 publications

(8 citation statements)

References 77 publications

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“…The presence of H 3 O + and Zr-OH in the ZBM was caused by the hydrolysis of Zr-Cl (Le 2014;So et al 2007). Zr-Cl bond was not observed in FTIR spectra, however, its presence was observed by So et al (2017) using thermal analysis and Awaludin et al (2015) using X-ray.…”

Section: Resultsmentioning

confidence: 99%

Influence Of Drying Time And Temperature On Zirconium-Based Material (ZBM) Properties For 99Mo/99mTc Generator Development

et al. 2018

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INFLUENCE OF DRYING TIME AND TEMPERATURE ON ZIRCONIUM-BASED MATERIAL (ZBM) PROPERTIES FOR 99Mo/99mTc GENERATOR DEVELOPMENT. Zirconium-based material (ZBM) has an important role in producing Technetium-99m (99m Tc) due to its high adsorption capacity to Molybdenum-99 (99 Mo). The adsorption capacity of the ZBM depends on the specific surface area which is influenced by several parameters in the synthesis process. This study aims to investigate the influence of drying time and temperature on the structure and specific surface area of the ZBM. Synthesis of the ZBM was carried out using zirconium chloride, 2-propanol, water and tetrahydrofuran at 75 °C, 90 °C and 120 °C and for 3 hr, 5 hr and 7 hr, respectively. Functional group and specific surface area of the ZBM was analyzed by FTIR and BET method, respectively. At the variation of drying time, the functional group pattern showed by FTIR spectra was not significantly different. The O-H group of the ZBM increased as the drying temperature decreases. At 75 and 90°C, the specific surface area increased as the function of time was increased but was decreased at 120°C. The highest surface area of the synthesized ZBM had a poor performance as a 99 Mo/ 99m Tc generator material, whereas the eluate met the required standard.

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Section: Resultsmentioning

confidence: 99%

Influence Of Drying Time And Temperature On Zirconium-Based Material (ZBM) Properties For 99Mo/99mTc Generator Development

et al. 2018

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“…Use of radioisotope concentrator in optimisation of the generator elution to increase 99m Tc-activity yield and effectiveness of 99 Mo utilisation [5,6] The radioisotope concentration process not only has positive impact on the extension of useful life time of the generators, but also is capable to increase the effectiveness of 99m Tc and 99 Mo utilisation by performing the early elutions of the generator at any time before maximal buildup of 99m Tc. The 99m Tc activity yield of the generator can be increased by performing an optimal regime of multiple ''early'' elutions (the generator is more frequently eluted) combined with a process of 99m Tc-eluate concentration.…”

Section: Resultsmentioning

confidence: 99%

Development of multiple-elution cartridge-based radioisotope concentrator device for increasing the 99mTc and 188Re concentration and the effectiveness of 99mTc/99Mo utilisation

Morcos

Bogulski

2014

J Radioanal Nucl Chem

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A self-shielded, sterile and cartridge-based radioisotope concentrator device coupled to 99m Tc/ 188 Re generators to increase the 99m Tc/ 188 Re-concentration of the generator eluate was developed based on new aminoalkylfunctionalized silica sorbent which conditionally catches and release 99m Tc/ 188 Re to concentrate the daughter nuclide of the generator eluates. The cartridge can be used for multiple elutions with an overall concentration factor of [100 and daughter nuclide recovery yield of [85 %. This device can be used for 10 days extension of 99m Tc-generator life-time, saving about 20 % of the generator activity and for ''early'' generator-elution programs, under which the generator is eluted at an optimized build-up time for increasing the effectiveness of 99m Tc/ 99 Mo utilisation.

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“…Note that enrichment refers to artificially increasing the amount of 98 Mo present in the target relative to the approximate Mo usually has 4 times higher 98 Mo atoms (up to fourfold for > 98% enrichment) compared to the natural Mo. It is reported that the specific activity of 99 Mo production with 8-day irradiation in a reactor with thermal flux 1.0 × 10 14 ncm −2 s −1 can reach the value of about 1.6 Ci 99 Mo/ g of natural and 6 Ci 99 Mo/g of enriched molybdenum target at the end of bombardment (EOB) [20].…”

Section: Neutron Activationmentioning

confidence: 99%

“…After 120 h of irradiation, the specific activity of 99 Mo was reported to be 16 GBq/g (~ 0.432 Ci/g) for enriched sample and 5 GBq/g (0.135 Ci/g) for natural sample. Yields of 99 Mo can be significantly enhanced by the epithermal neutron activation, hence the selection of the irradiation position is critical particularly in lower flux reactors [12,20]. Toth et al [22] reported that there are several factors such as self-shielding, parasitic absorption, and depletion of the product that must be accounted to identify the effective cross-section as these factors may change the results by 10 to 50%.…”

Section: Neutron Activationmentioning

confidence: 99%

Molybdenum-99 production pathways and the sorbents for 99Mo/99mTc generator systems using (n, γ) 99Mo: a review

Hasan

Prelas

2020

SN Appl. Sci.

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Technetiun-99 m (99m Tc) is a widely used and versatile radioisotope obtained from the beta decay of molybdenum (99 Mo). 99 Mo can be produced by thermal fission or neutron activation process. Production of 99 Mo via the neutron capture method draws attention as an alternative to fission derived 99 Mo due to non-proliferation issues. The main concern with neutron capture-produced 99 Mo (n, γ) over the common fission-produced involves both lower Curie yield and lower specific activity. In this work, different adsorbents using low specific activity 99 Mo for 99m Tc generator have been discussed.

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TcGenerator Development: Up-to-DateTcRecovery Technologies for Increasing the Effectiveness of

Cited by 16 publications

References 77 publications

Influence Of Drying Time And Temperature On Zirconium-Based Material (ZBM) Properties For 99Mo/99mTc Generator Development

Influence Of Drying Time And Temperature On Zirconium-Based Material (ZBM) Properties For 99Mo/99mTc Generator Development

Development of multiple-elution cartridge-based radioisotope concentrator device for increasing the 99mTc and 188Re concentration and the effectiveness of 99mTc/99Mo utilisation

Molybdenum-99 production pathways and the sorbents for 99Mo/99mTc generator systems using (n, γ) 99Mo: a review

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