| NIDC: National Isotope Development Center

Announcing domestic supply of lead-203

The U.S. Department of Energy Isotope Program is pleased to announce lead-203 (Pb-203) has been added to our catalog and is available for purchase. Pb-203 has drawn interest as a SPECT imaging isotope analogue to the therapeutic Pb-212, an alpha-emitter. Its addition to the NIDC Catalog establishes a theranostic matched pair of isotopes. Pb-203 will be shipped on a monthly basis with the first…

SPECT image of 0.8 mCi of Pb-203 as PbCl2 in solution. The material was placed in a small device used to gauge resolution capabilities of the imaging camera against the source isotope. Image courtesy: Suzanne E. Lapi and Shefali Saini, UAB

Isotope Product Catalog

With 225+ isotopes available for purchase, the U.S. Department of Energy Isotope Program is the world leader in quality, purity, and availability of the most sought after and rare isotopes.

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Radium-226 is Available Now!

The DOE Isotope Program (DOE IP) is pleased to announce that radium-226 is available for purchase.

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Introducing a new isotope supply chain to the global market: Cerium-134

The U.S. Department of Energy Isotope Program is pleased to announce cerium-134 (Ce-134) is in routine production and available for purchase. A robust supply of Ce-134 is an essential step in advancing the use of alpha emitters for cancer therapy due to its promise as a PET imaging analog for actinium-225 (Ac-225) and thorium-227 (Th-227).

Lacking imageable photons or positrons, Ac-225…

Actinium-227 is Available Now!

The DOE Isotope Program (DOE IP) is pleased to announce actinium-227 is available for purchase.

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Ac-227 at the bottom of a Wheaton v-vial. The isotope is dried down in preparation for shipment.

Translating Research to Applications

Get a behind-the-scenes look at the production of isotopes across the Department's facilities that are critical to everyday applications, particularly in the medical arena.

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Secretary Granholm Breaks Ground on Isotope Research Center to Advance Life-Saving Medical Applications and Strengthen America as a Global Scientific Leader

The U.S. Department of Energy (DOE), in coordination with Oak Ridge National Laboratory, today held a groundbreaking for the U.S. Stable Isotope Production and Research Facility (SIPRC), which will expand the nation’s capability to enrich stable isotopes for medical, industrial, and research applications. DOE also announced $75 million to support SIPRC with funding provided through President’s…

Dust flies to start construction of the SIPRC, with (l-r) ORNL Site Manager Johnny Moore, ORNL Director Thomas Zacharia, Secretary of Energy Jennifer Granholm, DOE Under Secretary for Science and Innovation Geraldine Richmond and Office of Science Director Asmeret Asefaw Berhe. Photo: Genevieve Martin

Medical Isotopes

With more than 35 medically relevant isotopes available and others under investigation, the NIDC is committed to supplying the world with the highest quality isotopes for medical use.

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Technical Resources

Need a custom service for your order? We offer a wide variety of special services to complement our radioactive and stable isotope offerings.

Technical Resources

Our mission is to support the U.S. Department of Energy Isotope Program as the global leader in the production and distribution of radioactive and enriched stable isotopes that are deemed critical or are in short supply.

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NIDC News

Join us at the DOE Isotope Program Overview and Breakfast at SNMMI

The director of the Isotope Program, Dr. Jehanne Gillo, will present an overview of the program, discuss isotope availability, planned development efforts and how current world events are affecting isotope supply chains.

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Funding Opportunity Announcement: Research, Development, and Training in Isotope Production

The DOE Office of Science is excited to announce a new Funding Opportunity for Research, Development, and Training in Isotope Production (DE-FOA-0003063).

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Call for Nominations: The Enrico Fermi Award

The Fermi Award is a Presidential award and is one of the oldest and most prestigious science and technology honors bestowed by the U.S. Government.

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DOE Isotope Program Highlights

Image courtesy of Brown, M.A., Metal Oxide Sorbents for the Separation of Radium and Actinium, Industrial & Engineering Chemistry Research, 59, 20472-20477 (2020). [DOI: 10.1021/acs.iecr.0c04084] The separation of radium and actinium is a major component in the production, distribution, and purity of targeted alpha therapy isotopes. This image shows the separation profiles of radium (purple) and actinium (green) across a zirconia resin.

Scientists Develop Inorganic Resins for Generating and Purifying Radium and Actinium

May 30, 2023

Research advances the chemistry and improves the purity of isotopes for targeted alpha therapy used in the treatment of cancers.

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Image courtesy of Gauthier Deblonde, Lawrence Livermore National Laboratory This photograph is a rare example of a curium compound (isotopes Cm-248/246). This is a Cm(III)-polyoxometalate complex isolated and characterized using the newly proposed technique that required only 1-10 micrograms of the precious radioisotope.

New Strategy Can Harvest Chemical Information on Rare Isotopes with a Fraction of the Material

May 10, 2023

A newly proposed approach aids chemical studies of rare, toxic, radioactive, and precious isotopes by requiring 1,000 times less material.

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Image courtesy of Jaimee Janiga, Oak Ridge National Laboratory

Getting Purer Berkelium, Faster than Ever

April 12, 2023

This new method individually separates heavy metals — an actinide chemist’s dream.

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Left: production rate as a function of proton energy of parent radioisotopes selenium-72 (Se-72) (1) & germanium-68 (Ge-68) (2). Right, a Positron Emission Tomography (PET) image of a patient with metastatic colon cancer, obtained using gallium-68 (Ga-68)

Fighting Cancer on Earth and in Space Using High-Energy Protons

November 8, 2022

Scientists on Earth use high-energy protons to create isotopes to detect and treat cancer. In space, however, these same high-energy protons can pose a risk to spacecraft and the health of the astronauts traveling in them.

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Upcoming Events

June

24–27

2023

SNMMI 2023 Annual Meeting

Chicago, Illinois

June

2023

DOE Isotope Program Overview Breakfast at SNMMI

McCormick Place - Chicago, Illinois

Announcing domestic supply of lead-203

Isotope Product Catalog

Radium-226 is Available Now!

Introducing a new isotope supply chain to the global market: Cerium-134

Actinium-227 is Available Now!

Translating Research to Applications

Secretary Granholm Breaks Ground on Isotope Research Center to Advance Life-Saving Medical Applications and Strengthen America as a Global Scientific Leader

Medical Isotopes

Technical Resources

NIDC News

DOE Isotope Program Highlights

Scientists Develop Inorganic Resins for Generating and Purifying Radium and Actinium

New Strategy Can Harvest Chemical Information on Rare Isotopes with a Fraction of the Material

Getting Purer Berkelium, Faster than Ever

Fighting Cancer on Earth and in Space Using High-Energy Protons

Upcoming Events

SNMMI 2023 Annual Meeting

DOE Isotope Program Overview Breakfast at SNMMI

Recent Publications

Evaluation of 177 Lu and 47 Sc Picaga-Linked, Prostate-Specific Membrane Antigen-Targeting Constructs for Their Radiotherapeutic Efficacy and Dosimetry

Nuclear data for reactor production of Ba-131 and Ba-133

Visions by Women in Molecular Imaging Network: Antiracism and Allyship in Action