Award Data

Ultramafic rocks host two resources that are key to avoiding catastrophic climate warming: (1) elements essential for mineral carbonation with gigatonne-scale carbon dioxide removal and sequestration (CDRS) potential, and (2) first-row transition elements including nickel and cobalt that are critical for the renewable energy transition. These elements are chemically bound within solid mineral phas ...

Ultramafic rocks host two resources that are key to avoiding catastrophic climate warming: (1) elements essential for mineral carbonation with gigatonne-scale carbon dioxide removal and sequestration (CDRS) potential, and (2) first-row transition elements including nickel and cobalt that are critical for the renewable energy transition. These elements are chemically bound within solid mineral phas ...

"Biomason’s proposed Soteria effort will eliminate key carbon incorporation elements within current biocement product production streams by: 1) urea substitution, 2) base aggregate mass carbon bundling, and 3) tuning of biocement speciation. In composite, these strategies will yield a carbon negative building material production strategy for cementitious materials that has the potential to suppl ...

"Biomason’s proposed Soteria effort will eliminate key carbon incorporation elements within current biocement product production streams by: 1) urea substitution, 2) base aggregate mass carbon bundling, and 3) tuning of biocement speciation. In composite, these strategies will yield a carbon negative building material production strategy for cementitious materials that has the potential to suppl ...

The objective of this work is to demonstrate GaN-based Junction Barrier Schottky (JBS) diodes using a novel ion implantation process developed in previously ARPA-E funded projects. The centerpiece of our proposed technology is selective area doping via implantation of Mg ions, which leverages our achievements in the ARPA-E PNDIODES program to push into commercial devices. The targeted application ...

The objective of this work is to demonstrate GaN-based Junction Barrier Schottky (JBS) diodes using a novel ion implantation process developed in previously ARPA-E funded projects. The centerpiece of our proposed technology is selective area doping via implantation of Mg ions, which leverages our achievements in the ARPA-E PNDIODES program to push into commercial devices. The targeted application ...

Emrgy, Inc., a pioneer in commercializing hydrokinetic power systems, is teaming with Premier Energy Holdings, Stanford University and University of Tennessee, Knoxville to develop a highly innovative solution to low-cost, riverine and tidal-based clean energy power generation. The project will implement “dynamic tuning” of the hydrokinetic turbine system to optimize performance across variabl ...

Emrgy, Inc., a pioneer in commercializing hydrokinetic power systems, is teaming with Premier Energy Holdings, Stanford University and University of Tennessee, Knoxville to develop a highly innovative solution to low-cost, riverine and tidal-based clean energy power generation. The project will implement “dynamic tuning” of the hydrokinetic turbine system to optimize performance across variabl ...

Emrgy, Inc., a pioneer in commercializing hydrokinetic power systems, is teaming with Premier Energy Holdings, Stanford University and University of Tennessee, Knoxville to develop a highly innovative solution to low-cost, riverine and tidal-based clean energy power generation. The project will implement “dynamic tuning” of the hydrokinetic turbine system to optimize performance across variabl ...

Proposed is method and system to produce magnesium metal, a strategic infrastructure material commonly associated with the growing demand in vehicle and aircraft light-weighting segments. BBT has already demonstrated the effectiveness of carbothermal reduction as the world’s most material and energy efficient production pathway. Scale-up represents a unique challenge to industrial technologies i ...