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DOE awarding >$24M to 77 projects through Technology Commercialization Fund

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Low Cost Roll-to-Roll Manufacturing of Reusable Sorbents for Energy and Water Industries, $150,000 Qualification of SAS4A/SASSYS-1 for Sodium-Cooled Fast Reactor Authorization and Licensing, $674,484 Advanced Reactor Concepts LLC, Chevy Chase, Md. Louis , Mo. Touchstone Research Laboratory, Triadelphia, W. San Jose, Calif.

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DOE awards $100M in 2nd funding round for 32 Energy Frontier Research Centers

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Light-Material Interactions in Energy Conversion (LMI). Tailor the morphology, complex dielectric structure, and electronic properties of matter so as to sculpt the flow of sunlight and heat, enabling light conversion to electrical energy with unprecedented efficiency. Solid-State Solar-Thermal Energy Conversion Center (S3TEC).

Energy 337
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ARPA-E selects 33 projects for $66M in awards; advanced biocatalysts for gas-to-liquids and lightweight metals

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While chemically converting natural gas to liquid fuels (GTL) is a proven technology that increases volumetric energy density, the current conversion approach through Fischer-Tropsch (FT-GTL) is challenged by both high capital costs and low conversion efficiencies. Enzyme Engineering for Direct Methane Conversion.

Gas 259
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DOE Investing Up to $78M Investment in Two Consortia Targeting Algae-Based and Biomass-Based Bio-Hydrocarbon Fuels and Infrastructure; $1.6M for Ethanol Blends Fueling Infrastructure

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Led by the Donald Danforth Plant Science Center (St. Louis, MO), NAABB will develop a systems approach for sustainable commercialization of algal biofuel (such as renewable gasoline, diesel, and jet fuel) and bioproducts. Low-cost one-step syngas to distillates.

St. Louis 199
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ARPA-E awards $37M for IONICS projects; improving solid-state batteries and fuel cells

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In particular, IONICS projects will work to improve energy storage and conversion technologies in three categories: transportation batteries, grid-level storage, and fuel cells. The Oak Ridge National Laboratory team seeks to find glassy lithium-ion conductors that are stable and can be fully integrated into battery cells at a low cost.

Li-ion 150
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DOE reports progress on development of hydrogen storage technologies

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Related to this, DOE seeks by 2020 to develop novel precursors and conversion processes capable of reducing the high-volume cost of high-strength carbon fiber by 25% from $13 per pound to ~$9 per pound. Projected costs, in 2013$, for BOP components for 700-bar compressed hydrogen storage systems produced at 500,000 systems per year.

Hydrogen 225