| NIDC: National Isotope Development Center

U.S. Department of Energy Advances Domestic Capabilities for Producing Quantum Materials

Under the guidance and funding of the Office of Isotope R&D and Production, Pacific Northwest National Laboratory has developed systems that can convert commercially available, isotopically enriched, silicon and germanium materials into high-purity silane (SiH₄) and germane (GeH₄). …

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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Share Your Five-Year Isotope Needs

This annual survey offers a crucial opportunity to directly inform the Office of Isotope R&D and Production's strategic planning and resource prioritization. Your input on future market demand is essential for strengthening our domestic supply chains, driving innovation, and ensuring the U.S. continues to meet critical isotope needs across all sectors. 

Promethium Chemistry Breakthrough Could Unlock New Applications

Scientists characterize a promethium coordination complex for the first time, furthering the understanding of difficult-to-study lanthanide elements.

Image courtesy of Jacquelyn DeMink (art) and Thomas Dyke (photography), Oak Ridge National Laboratory Conceptual art showing the rare earth element promethium in a vial surrounded by an organic ligand. Scientists have discovered hidden features of promethium, opening a pathway for research on other lanthanide elements.

A First Look Inside Radium’s Solid-State Chemistry

For the first time in history, scientists have measured radium’s bonding interactions with oxygen atoms in an organic molecule.

$Illustration by Christopher Orosco, Oak Ridge National Laboratory. Illustration of the structure of the radium compound characterized in this research. Single crystal X-ray diffraction provided detailed information on the bonding of radium in an organic molecule for the first time.$

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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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.

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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

U.S. Department of Energy Advances Domestic Capabilities for Producing Quantum Materials

To meet the Genesis Mission’s goals, DOE has made significant progress on improving the supply chain for materials critical to quantum information science.

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DOE’s Office of Science is now Accepting Applications for Graduate Student Research Awards

Students will perform Graduate Theses Research at U.S. Department of Energy National Laboratories.

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Request Now: Americium-241 Request Form Now Open for the 2026 Supply Term

The IRP is now accepting requests for Am-241 for the upcoming supply term of May 1, 2026, through April 30, 2027.

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DOE Isotope Program Highlights

Steps in terbium-161 (Tb-161) production. The University of Utah TRIGA reactor induces thermal neutron capture on gadolinium-160 (Gd-160), which decays to Tb-161. Separating the Gd-160 target yields high-purity Tb-161 for cancer therapy and diagnosis. Graphic courtesy of Connor Holiski.

To Advance Cancer Therapy, University Starts Producing Terbium-161

September 16, 2025

In this study, researchers from the University of Utah, in collaboration with the University of Missouri, produced Tb-161 using the University of Utah’s TRIGA research reactors.

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Improvements to Americium-241 processing can increase yield, decrease the amount of waste generated, and reduce the radiological dose workers receive. Image courtesy of Brittany St. Jacques, Los Alamos National Laboratory

Improving Large-Scale Domestic Production of Americium-241, a Critical Component in Smoke Detectors and Nuclear Batteries

July 23, 2025

Researchers explore the effects of radiation and harsh chemicals to optimize americium-241 production.

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Image courtesy of Jon Burns, University of Alabama at Birmingham Schematic of the astatine-ketone bond breaking to release free astatine-211.

Astatine Paving the Way for a New Era in Cancer Radiopharmaceuticals

July 16, 2025

Researchers gain new insights into a strong bond between At-211 and common chemicals, creating new possibilities for cancer treatment

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Image courtesy of Chris Orosco/ORNL, U.S. Dept. of Energy Artists’ depiction of a new potential cancer treatment vehicle—an engineered nanometer-size construct that holds a radioactive isotope that can be delivered to destroy cancer cells.

Killing Cancer with Radioactive Nanocrystals

June 24, 2025

The Department of Energy Isotope Program (DOE IP) continues to enable groundbreaking developments in cancer research through the provision of medically relevant isotopes.

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Upcoming Events

February

28–3

2026

High Country Nuclear Medicine Conference

Crested Butte, Colorado

April

14–16

2026

13th International Symposium of Targeted Alpha Therapy (TAT 13)

Rio De Janeiro, Brazil

May

30–2

2026

SNMMI 2026 Annual Meeting

Los Angeles, California

May

31–3

2026

2026 ANS Annual Conference

Denver, Colorado

U.S. Department of Energy Advances Domestic Capabilities for Producing Quantum Materials

Isotope Product Catalog

Share Your Five-Year Isotope Needs

Promethium Chemistry Breakthrough Could Unlock New Applications

A First Look Inside Radium’s Solid-State Chemistry

Translating Research to Applications

Medical Isotopes

Technical Resources

NIDC News

DOE Isotope Program Highlights

To Advance Cancer Therapy, University Starts Producing Terbium-161

Improving Large-Scale Domestic Production of Americium-241, a Critical Component in Smoke Detectors and Nuclear Batteries

Astatine Paving the Way for a New Era in Cancer Radiopharmaceuticals

Killing Cancer with Radioactive Nanocrystals

Upcoming Events

High Country Nuclear Medicine Conference

13th International Symposium of Targeted Alpha Therapy (TAT 13)

SNMMI 2026 Annual Meeting

2026 ANS Annual Conference

Recent Publications

Production and Purification of Terbium-155 Using Natural Gadolinium Targets

Production and purification of research scale 161Tb using cation-exchange semi-preparative HPLC for radiopharmaceutical applications

Probing the Redox Reactivity of Alkyl Bound Astatine: A Study on the Formation and Cleavage of a Stable At–C Bond