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Remove Carbon Fiber Remove Climate Change Remove CO2 Remove Conversion
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GWU team develops low-cost, high-yield one-pot synthesis of carbon nanofibers from atmospheric CO2

Green Car Congress

AUGUST 21, 2015

Stuart Licht at The George Washington University in Washington, DC has developed a low-cost, high-yield and scalable process for the electrolytic conversion of atmospheric CO 2 dissolved in molten carbonates into carbon nanofibers (CNFs.) —Ren et al.

Low Cost 150
Low Cost Carbon Li-ion Carbon Fiber 150
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New silica-organic hybrid absorbents deliver among highest performance yet reported for CO2 capture from air

Green Car Congress

JANUARY 4, 2012

It is now widely accepted that anthropogenic CO 2 , due to its role as a greenhouse gas, is the major contributor to climate change. The capture material then can be recycled and reused many times over without losing efficiency. Thus, CO 2 management is one of the most challenging issues of our century.

CO2 199
CO2 Hybrid Carbon Climate Change 199
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