Green Car Congress

JUNE 22, 2010

Researchers at the University of Maryland have used a nickel-coated, genetically modified Tobacco mosaic virus (TMV1cys) as a 3-D current collector, combined with electrodeposition (ED), to fabricate a porous silicon anode for lithium-ion batteries. SEM images before and after the silicon deposition. Source: Chen et al. 2010.05.006.

Li-ion 170

Li-ion Lithium Ion Carbon Fiber Maryland 170

Green Car Congress

AUGUST 16, 2016

Develop and demonstrate an off‐board bi‐directional DC charging system for plug‐in electric vehicles and evaluate impact of grid services on PEV batteries. Develop a high‐efficiency, bi‐directional wireless charging system for medium‐duty plug‐in electric delivery vehicles and evaluate impacts on PEV batteries in this use case.

Vehicles 150

Vehicles Plug-in Lithium Ion Universal 150

Green Car Congress

FEBRUARY 15, 2022

The selected projects—spanning 22 states and coordinated at universities, national laboratories, and private companies—will advance technologies for a wide range of areas, including electric vehicles, offshore wind, storage and nuclear recycling. Cornell University. Stanford University. The Ohio State University.

Clean 284

Clean Cleaning Energy Li-ion 284

Green Car Congress

JUNE 28, 2011

This research is being performed through teamwork with local universities: the University of Pittsburgh, the Pennsylvania State University, West Virginia University, and the University of Maryland. In contrast, pseudo-capacitor technology relies on charge transfer reactions involving Faradaic transitions.

Energy Storage 207

Energy Storage Grid Energy Ni-Li 207