TECHNOLOGY LICENSING OPPORTUNITY: Glass Components Fabricated via Aerosol Jet Printing

Location: New Mexico
Posted: Apr 30, 2026
Due: Jun 30, 2026
Agency: ENERGY, DEPARTMENT OF
Type of Government: Federal
Category:
  • A - Research and development
Solicitation No: S-166756
Publication URL: To access bid details, please log in.
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TECHNOLOGY LICENSING OPPORTUNITY: Glass Components Fabricated via Aerosol Jet Printing
Active
Contract Opportunity
Notice ID
S-166756
Related Notice
Department/Ind. Agency
ENERGY, DEPARTMENT OF
Sub-tier
ENERGY, DEPARTMENT OF
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TRIAD - DOE CONTRACTOR
General Information
  • Contract Opportunity Type: Special Notice (Original)
  • Original Published Date: Apr 30, 2026 04:23 pm MDT
  • Original Response Date: Jun 30, 2026 05:00 pm MDT
  • Inactive Policy: Manual
  • Original Inactive Date: Jun 30, 2027
  • Initiative:
    • None
Classification
  • Original Set Aside: No Set aside used
  • Product Service Code: AJ12 - GENERAL SCIENCE AND TECHNOLOGY R&D SERVICES; GENERAL SCIENCE AND TECHNOLOGY; APPLIED RESEARCH
  • NAICS Code:
    • 541713 - Research and Development in Nanotechnology
  • Place of Performance:
    Los Alamos , NM 87545
    USA
Description

An additive manufacturing method for micron-scale glass component fabrication



Micron-scale glass components are widely used in optical, photonic, and micro-fabricated systems. These components are commonly produced through grinding, polishing, and milling processes that require tight tolerances and specialized equipment. As device architectures become more compact and geometrically complex, these approaches can constrain design flexibility and integration.



Los Alamos researchers developed an additive manufacturing process that builds glass components layer by layer using aerosol jet printing. Glass particles suspended in an aerosolizable carrier solution are deposited onto a substrate and then sintered to form monolithic glass structures. This approach enables controlled fabrication of small glass features without bulk glass melting or post-fabrication machining.



Value Proposition



This technology enables the fabrication of micron-scale glass components using an additive manufacturing approach. Conventional fabrication methods rely on subtractive machining, which can limit achievable geometries and increase processing complexity at small scales. By depositing glass material directly into its final geometry and sintering it into a dense structure, this method provides an alternative pathway for producing small, high-precision glass features.



Advantages




  • Enables additive fabrication of micron-scale glass components

  • Reduces reliance on precision subtractive glass machining

  • Supports complex geometries and embedded glass features

  • Compatible with multiple glass compositions and substrates

  • Integrates with existing aerosol jet printing platforms



Technology Description



The method uses aerosol jet printing to deposit fine glass particles or sol-gel-based materials with micron-scale resolution. Deposition conditions are adjusted to build glass features to a specified thickness and geometry. After deposition, the printed material is sintered to remove the carrier and bond the particles into a dense glass component.



Demonstrations show that the process can produce continuous, monolithic glass features on planar substrates. The method supports multiple glass compositions and allows components to be fabricated directly in their final configuration.



Market Applications



This additive glass fabrication method is relevant to technologies that require small, high-precision glass components, including:




  • micro-optics and micron-scale lenses

  • optical waveguides and photonic interconnects

  • optical filters and coatings

  • glass-to-metal seals and microfluidic structures

  • photonic and optical packaging platforms



These and related applications benefit from increased flexibility in the fabrication of glass features at small scales.





TRL 3



US Patent pending



LA-UR-25-28977





LANL Tech Partnerships: Unlock the Innovative Potential



Los Alamos National Laboratory offers a wide range of cutting-edge technologies and capabilities that may provide your company with a competitive edge in the market and unlock the innovative potential that can enhance, refine, and revolutionize your products.



LANL’s licensing program focuses on moving inventions developed by our researchers to commercial innovations. Patented and patent pending inventions and copyrighted software are available to existing and start-up companies through exclusive and non-exclusive licensing agreements. For specific discussions, please contact licensing@lanl.gov.



Note: This is not a call for external services for the development of this technology.



https://www.lanl.gov/engage/collaboration/feynman-center/partner-with-us/licensing-technology



m.lanl.gov/tech-search


Attachments/Links
Contact Information
Contracting Office Address
  • 505 King Ave
  • Columbus , OH 43201
  • USA
Primary Point of Contact
Secondary Point of Contact
History
  • Apr 30, 2026 04:23 pm MDTSpecial Notice (Original)
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ENERGY, DEPARTMENT OF

Bid Due: 1/06/2027

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