How to produce <strong>Iodine 124</strong>
Cyclotron
Target
Chemistry
Optimized production route
Cyclone® KIUBE
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Cyclone® KIUBE
<p><sup>124</sup>I is obtained from the irradiation of a solid target at 14 MeV. Cyclone<sup>®</sup> KIUBE can have different fixed exit energy with its Custom Energy feature enabling you to reach the highest purity.</p> <p>Cyclone<sup>®</sup> KIUBE can also be equipped with a degrader foil on the solid target.</p> More about Cyclone® KIUBE
Nirta® solid target
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Nirta® solid target
<p>Highly enriched <sup>124</sup>TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the Nirta<sup>®</sup> solid target. The target material is then irradiated. </p> <p>> 50 mCi at 14.9 MeV, 20µA, irradiation for 8 h. </p> More about Nirta® Solid target
HighMOR®
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HighMOR®
<p>The radioiodine separation is accomplished via thermo distillation with the HighMOR<sup>®</sup> system at high temperature to release the iodine. Iodine is then trapped into a solution. This fully automated process is controlled by user-friendly software interface.</p> More about HighMOR®
Alternative
Cyclone® 30 XP
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Cyclone® 30 XP
<p><sup>124</sup>I can also be produced on the Cyclone<sup>®</sup> 30 XP. </p> More about Cyclone® 30 XP
Nirta ® solid target
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Nirta ® solid target
<p>Highly enriched <sup>124</sup>TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the <span>Nirta</span><sup>®</sup> solid target. The target material is then irradiated. </p> <p>> 50 <span>mCi</span> at 14.9 <span>MeV</span>, 20µA, irradiation for 8 h. </p> More about Nirta® solid target
HighMOR®
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HighMOR®
<p>The radioiodine separation is accomplished via <span>thermo</span> <span>distillation</span> with the <span>HighMOR</span><sup>®</sup> system at high temperature to release the iodine. Iodine is then trapped into a solution. This fully automated process is controlled by user-friendly software interface.</p> More about HighMOR®
Cyclone® IKON
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Cyclone® IKON
<p><sup>124</sup>I can also be produced on the Cyclone<sup>®</sup> IKON. </p> More about Cyclone® IKON
Nirta ® solid target
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Nirta ® solid target
<p>Highly enriched <sup>124</sup>TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the <span><span>Nirta</span></span><sup>®</sup> solid target. The target material is then irradiated. </p> <p>> 50 <span><span>mCi</span></span> at 14.9 <span><span>MeV</span></span>, 20µA, irradiation for 8 h. </p> Moer about Nirta® Solid target
HighMOR®
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HighMOR®
<p>The radioiodine separation is accomplished via <span><span>thermo</span></span> <span><span>distillation</span></span> with the <span><span>HighMOR</span></span><sup>®</sup> system at high temperature to release the iodine. Iodine is then trapped into a solution. This fully automated process is controlled by user-friendly software interface.</p> More about HighMOR®
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