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Energy, Department of contract category

Available for Licensing:High-Quality Superconducting ZrN Thin Films via Molecular Beam Epitaxy for Quantum Computing and Advanced Superconducting Technologies

Energy, Department of · ENERGY, DEPARTMENT OF

This notice is not accepting responses (deadline was Apr 20, 2026, 2:00 AM EDT).

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Response deadline
Apr 20, 2026, 2:00 AM EDT
Posted
Mar 4, 2026
Solicitation
BA-1552
Set-aside
None listed
Place of performance
Idaho Falls, ID, USA
Contracting office
BATTELLE ENERGY ALLIANCE�DOE CNTR · Idaho Falls · ID
Source
SAM.gov · updated Jul 5, 2026

Description

High-Quality Superconducting ZrN Thin Films via Molecular Beam Epitaxy for Quantum Computing and Advanced Superconducting Technologies Description INL researchers have successfully established the parameters necessary for the deposition of high-quality superconducting zirconium nitride (ZrN) using molecular beam epitaxy (MBE). Key parameters include growth rate, temperature, flux ratios of zirconium (Zr) and nitrogen (N), and the choice of substrate. These parameters significantly impact the crystalline quality of the ZrN, which in turn affects its physical properties. Additionally, novel methods have been developed to induce unconventional superconductivity in conventional superconductors like ZrN. Key Benefits Superior Quality: MBE allows for fine-tuned growth parameters, resulting in top-quality, single-crystal ZrN superconducting films. Unconventional Superconductivity: Methods for inducing unconventional superconductivity in ZrN have been conceptualized, potentially enabling more fault-tolerant computing. Novel Application: ZrN has not previously been deposited using MBE, offering a unique advantage over existing superconducting thin films, which are often polycrystalline. Tunable Impurities, Defects, and stoichiometry: The precise control during deposition minimizes impurities and defects, enabling better performance and higher critical temperatures. Direct control of stoichiometry allows for tunable performance metrics such as critical field and temperature. Market Applications Quantum Computing: Superconducting ZrN thin films can be used as platforms for superconducting qubits, a key component in the development of quantum computers. Epitaxial Superconducting Heterostructures: The high-quality, high-uniformity films can be used to create advanced structures needed for unconventional superconducting technologies with atomic layer precision at wafer scale. Research and Development: The technology can be utilized by researchers and companies focused on advancing superconducting materials and their applications. Fault-Tolerant Computing: Unconventional superconducting schemes based on this technology could lead to more robust and fault-tolerant computing systems. This technology represents a significant advancement in the field of superconducting materials, with broad implications for quantum computing and other high-tech applications.

What similar awards have paid

Real federal awards already on the books in a similar lane — so you can size the opportunity, not guess. This is public history, not a bid price, cost estimate, or prediction that you will win.

Typical award size

$67,319

Middle of the pack for similar past awards

Most similar awards fall between $22,052 and $110,292

Lower end$22,052Typical$67,319Higher end$110,292
Based on 88 similar awardsSame industry code (334413)Prime contracts (not umbrella IDVs)

Who has won work like this

Public awardees in this lane — useful for competitor scan or teaming ideas, not a ranked list of “best” firms.

Drawn from official USAspending contract records in our index. Always confirm requirements on the SAM.gov notice before you bid.

Intelligence only — not legal advice or a guarantee of award. Always verify requirements on the official SAM.gov notice. Past award amounts are public history, not a suggested bid or prediction. Notice ID b0baab0c522841d4ba948df363890f0d.

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