I124Iodine 124

To produce Iodine 124,
we recommend this production route:

• Recommended

  Target:

  Nirta^® solid target

  Highly enriched ¹²⁴TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the  Nirta^® solid target. The target material is then irradiated.

  > 50 mCi at 14.9 MeV, 20µA, irradiation for 8 h.

  More about Nirta^® solid target

  Chemistry:

  HighMOR^®

  The radioiodine separation is accomplished via thermo distillation with the HighMOR^® 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.

  More about HighMOR^®

• Alternative

  Target:

  Nirta^® solid target

  Highly enriched ¹²⁴TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the  Nirta^® solid target. The target material is then irradiated.

  > 50 mCi at 14.9 MeV, 20µA, irradiation for 8 h.

  More about Nirta^® solid target

  Chemistry:

  Thermo distillation

  The radioiodine separation is accomplished via thermo distillation 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.

• Alternative

  Target:

  Nirta^® solid target

  Highly enriched ¹²⁴TeO2 (> 99.5 %) powder is melted onto a platinum disk and placed within the  Nirta^® solid target. The target material is then irradiated.

  > 50 mCi at 14.9 MeV, 20µA, irradiation for 8 h.

  More about Nirta^® solid target

  Chemistry:

  Thermo distillation

  The radioiodine separation is accomplished via thermo distillation 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.