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MIT team discovers new family of materials with best performance yet for oxygen evolution reaction; implications for fuel cells and Li-air batteries

Green Car Congress

SEPTEMBER 19, 2013

MIT researchers have found a new family of highly active catalyst materials that provides the best performance yet in the oxygen evolution reaction (OER) in electrochemical water-splitting—a key requirement for energy storage and delivery systems such as advanced fuel cells and lithium-air batteries. Earlier post.)

MIT 218
MIT Fuel Water Battery 218
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Technical review outlines challenges for both batteries and fuel cells as basis for electric vehicles

Green Car Congress

OCTOBER 26, 2015

Theoretically, with renewable electricity, the 95 gCO 2 /km target could also be met by extended range electric vehicles with 40 miles all-electric range if 50% of driving is powered by the battery, or by fuel cell electric vehicles (FECVs), with hydrogen produced by water electrolysis. Source: Gröger et al. Click to enlarge. kgH 2 /min.

Lithium Sulfur 150
Lithium Sulfur Electric Vehicles Li-ion Battery 150
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