Award Data

Development of Li-ion conducting membranes capable of supporting Li-metal anode to enable high- performance Li-metal batteries (LiMB) is a priority for the Department of Energy (DOE). State-of- the-art membranes used for Li-ion batteries (LiB) are not suitable for LiMB and have a number of disadvantages including poor cycling performance, low Li-ion conductivity, and electrochemical stability with ...

The Exascale Computing Project is tasked to develop the next generation of high performance computing systems capable of computing at 50 to 100 times faster than current HPC systems. Computing at this extreme-scale will significantly enhance the value of materials modeling and simulation to basic materials research and engineering In particular, computing at the extreme scale will enable a higher ...

Sustainable fuels and chemicals production is necessary for the future of the global economy. Opus 12 has developed an electrochemical process to convert CO2 into solar chemicals and fuels. Key to our process is a new polymer-electrolyte membrane design that enables CO2 electroreduction in existing a polymer-electrolyte membrane (PEM) electrolyzer hardware. PEM electrolyzers are ideal for coupling ...

Computer-aided Engineering software that apply the Finite Element Method to perform a multi-physics analysis have received widespread acceptance for traditional macro-scale material systems. Challenges persist in the modeling of complex coupled processes in environmental/thermal barrier coatings (E/TBCs) used to protect substrate material against the corrosive environment in the hot section parts ...

Understanding the genomic basis of economically important plants for growth time, crop yield, responses to drought and disease resistance is of critical importance to sustaining and improving food supplies for humans and livestock, as well as insuring sufficient raw material availability for industries that depend on plant materials, such as biofuel manufacture. Current computational methods for a ...

High Temperature Superconducting (HTS) materials have excellent mechanical and electrical properties. They are very attractive for various industrial applications such as power cables and high field, high current superconducting magnets. Magnets made with these materials could play a key role in the commercialization of fusion energy machines. However, HTS materials have very slow normal zone prop ...

Vast amounts of impaired waters are produced in gas and oil wells. Energy-efficient desalination systems are needed to treat these waters to produce fresh water and concentrated brines. Mineral recovery systems can also yield valuable critical materials as byproducts. Savengy Technologies and University of Central Florida (UCF) will develop and commercialize an energy efficient system to treat sha ...

Idaho National Laboratory (INL), under funding from the Critical Materials Institute, has developed a US patented technology to reclaim valuable metals from waste electronic equipment. The Electrochemical Recycling Electronic Constituents of Value (E-RECOV) method uses an electrochemical cell to efficiently recover the bulk of metals from discarded electronics, leading to more complete recycling o ...

The problem/situation that is being addressed concerns the development of near infrared ultrafast interference coatings(IC) for high average power femtosecond lasers that will meet the specifications of the DoE solicitation: “broad-bandwidth, laser damage threshold of 0.5 J/cm2 (1 ps), engineered using a process that is scalable to large areas.” Advances in compact high gradient laser-driven p ...

Tristructural isotropic (TRISO) fuel is a key component of advanced small modular nuclear fission reactors due to its inherent safety at high temperatures and irradiation levels and decreased proliferation risk relative to current reactor fuels. A more efficient cooling method for TRISO fuel compacts would increase heat transfer, allow for an increase in fuel density, and further improve accident ...