The Realize Energy-rich Compound Opportunities Valorizing Extraction from Refuse waters - (RECOVER) program seeks to create new ways to extract cri…
This Second Amended Determination follows the approval of additional funding, period of performance, and new project milestones to support the project team's small-scale research and development activities to further advance their solution for effectively managing complex fluoride salt waste from reactors under the Optimizing Nuclear Waste and Advanced Reactor Disposal Systems (ONWARDS) program.
Funding will support the project team's small-scale research and development of an ultrahigh-temperature stable plasma (USP) platform to produce hi…
The U.S. Department of Energy (DOE) is proposing to provide federal funding to Coppin State University (CSU) to advance renewable energy technologi…
Graphene oxide nanoribbons will be mixed in with thermoplastics when appropriate. Printing with conventional commercial FLD filaments is also detai…
This Amended Determination follows the approval of additional funding, period of performance, removal of teaming partners, and new project milestones to include the development of three additional Substation in a Cable for Adaptable, Low-cost Electrical Distribution (SCALED) alternating current (AC) to AC cells in addition to the development of four direct current (DC) to DC SCALED cells already in progress, with a goal to create a cohesive, all-in-one structure to replace bulky, inflexible power substations in the electrical grid.
Chemical and nanomaterials research preformed in various labs at the Applied Research Center.…
A chemical vapor deposition (CVD) method will be used to prepare nanomaterials. Rev. 0 - Work location moved to AMC. no scope changes from former E…
Funding will support the project team's small-scale research and development of a technology approach to large-scale, dynamic energy transport by using electrochemical processes and existing logistics infrastructure by leveraging globally abundant, non-critical metals to serve as energy carriers and innovative metal-air fuel cells and low temperature metal electrolyzers for energy conversion.
CX-270842: The MITRE Corporation - All-Optical Chiplets for Energy-Efficient Artificial Intelligence
Funding will support the project team's small-scale research and development of computer chiplets based on photonic integrated circuits that use light instead of electricity for computation.