NLR's advanced manufacturing research aims to develop robust supply chains, cutting-edge materials, and novel processes to drive innovation and enable cost-effective energy solutions.
Newly Funded Projects Will Address Critical Industrial Challenges
Explore Critical Materials Career Map
NLR, along with Julius Education and the U.S. Department of Energy (DOE), developed this DOE tool to raise awareness and interest for the types of skills, roles, and experiences expected when working in the critical minerals and materials sector.Tour NLR's Facilities
Explore a virtual 360-degree tour that examines the tools and capabilities of NLR's advanced manufacturing facilities, especially with regard to power electronics fabrication, prototyping, validation, and application.
Manufacturing Masterminds Q&A With Paul Meyer
Paul Meyer is a chemical engineer who identifies ways polymers could cut energy demand for paper production, form a super tough and affordable cement alternative, and make a formaldehyde-free engineered wood.
The scientific and engineering research in NLR's Advanced Manufacturing Program is driving a more robust supply chain of abundant resources on the grid and accelerating process innovations for energy-intensive industries, like steel and concrete, to help the United States remain globally competitive. Researchers are also focused on developing new, innovative technologies that lower the cost of domestic manufacturing and energy generation.
NLR works collaboratively with academia, national laboratories, and industry partners, including utilities, state and local government, to bridge innovation gaps and drive advanced manufacturing technologies and processes to market. NLR also has facilities dedicated to the R&D needs of manufacturers and other facilities that have the flexibility to adapt to those needs.
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Last Updated Feb. 5, 2026