Green Car Congress

MARCH 3, 2016

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. —Stuart Licht. —Licht et al.

Li-ion 150

Li-ion Carbon Convert Sodium 150

Green Car Congress

JUNE 14, 2011

Researchers at the Leibnitz Institute for Catalysis (Rostock, Germany) have introduced a new approach to hydrogen storage that is based on simple salts of formic acid and carbonic acid. A fundamental problem with the use of these storage materials is the separation of the carbon dioxide formed when the hydrogen is released.

Hydrogen 210

Hydrogen CO2 Sodium Store 210

Green Car Congress

MARCH 9, 2011

Scott Elrod, VP and Director of PARC’s Hardware Systems Laboratory (HSL) research organization also directs the Cleantech Innovation Program at PARC, which develops solutions for delivering affordable solar energy, increasing solar cell efficiency, purifying water, managing energy utilization, and producing renewable fuels. Electrodes.

Renewable 236

Renewable Carbon Fuel Building 236

Green Car Congress

APRIL 7, 2013

Advanced systems such as lithium-air, sodium-ion, as well as lithium-ion with new cathode chemistries are appropriate. Advanced Batteries for Transportation. The focus is on high-energy density and high-power density batteries suitable for transportation applications.

Nickel Metal Hydride 236

Nickel Metal Hydride Transportation Fuel Production 236

Green Cars News

OCTOBER 30, 2009

A focus on tailpipe CO2 emissions has distracted away from the impact of car production, suggests Professor Frank Figge who co-authored the ‘Sustainable Value in Automobile Manufacturing’ study. Its sodium oxide value contributions show the worst level of resource efficiency in the entire study.

Sodium 36

Sodium 2007 GM Universal 36