Remove CO2 Remove Conversion Remove Sodium Remove Water
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Researchers convert atmospheric CO2 to carbon nanofibers and nanotubes for use as anodes in Li-ion and Na-ion batteries

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Researchers from George Washington University and Vanderbilt University have demonstrated the conversion of atmospheric CO 2 into carbon nanofibers (CNFs) and carbon nanotubes (CNTs) for use as high-performance anodes in both lithium-ion and sodium-ion batteries. times above that of sodium-ion batteries with graphite electrodes.

Li-ion 150
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CO2-neutral hydrogen storage with a bicarbonate/formate system

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Most importantly, after full conversion of the formate, the bicarbonate solution may be recharged with hydrogen to close the cycle. Bicarbonates are a component of many natural stones and are also commonly used as baking powder or sherbet (sodium bicarbonate, NaHCO 3 ). formed in the dehydrogenation.

Hydrogen 210
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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. Touchstone Research Laboratory, Triadelphia, W. TerraPower LLC, Bellevue, Wash.

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NSF to award up to $13M for fundamental work on sustainable production of electricity and transportation fuels

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Current interest areas in sustainable energy technologies are as follows: Biomass Conversion, Biofuels & Bioenergy. Advanced systems such as lithium-air, sodium-ion, as well as lithium-ion with new cathode chemistries are appropriate. Advanced Batteries for Transportation.