Green Car Congress

AUGUST 11, 2015

Researchers at the University of Maryland have developed a thermally conductive separator coated with boron-nitride (BN) nanosheets to improve the stability of Li metal anodes for us in high energy density Li-ion batteries. earlier post ).

Li-ion 150

Li-ion Maryland Carbon Batteries 150

Green Car Congress

JANUARY 16, 2015

Researchers from Nanjing Forestry University and the University of Maryland have designed high-performance microfibers by hybridizing two-dimensional (2D) graphene oxide (GO) nanosheets and one-dimensional (1D) nanofibrillated cellulose (NFC) fibers. —Li et al. (a) —Li et al. Click to enlarge.

Carbon Fiber 150

Carbon Fiber Li-ion Hybrid Carbon 150

Green Car Congress

AUGUST 16, 2016

SuperTruck II builds on the successful SuperTruck I program, which has already led to more than twenty fuel saving technologies that have reached the commercial market, said Acting Assistant Secretary David Friedman. Ohio State University. Iowa State University. University of Pittsburgh. Penn State University Park.

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

JULY 21, 2009

Richard Yetter, a professor of mechanical engineering at Pennsylvania State University and a principal investigator on the project. Aksay and his colleagues are also investigating self-assembled TiO 2 –graphene hybrid nanostructures for enhanced Li-ion insertion. To make the planes go faster, we need to burn fuel faster.

Diesel 150

Diesel Fuel Li-ion 2009 150

Green Car Congress

FEBRUARY 23, 2018

Researchers at the University of Maryland have designed a flexible lithium-ion conducting ceramic textile featuring fast lithium-ion conductors, good electrochemical stability, and scalable processing approaches to device integration for solid-state lithium metal batteries. Flexible lithium-ion conducting ceramic textile.

Li-ion 247

Li-ion Lithium Ion Batteries Battery 247

Green Car Congress

OCTOBER 24, 2012

Researchers at the University of Maryland have developed a nanocomposite material of amorphous, porous FePO 4 nanoparticles electrically wired by single-wall carbon nanotubes as a potential cathode material for sodium-ion batteries (SIBs). However, many challenges remain before SIBs can become commercially competitive with LIBs.

Sodium 231

Sodium Maryland Li-ion Lithium Ion 231

Green Car Congress

JULY 17, 2018

Researchers at the University of Maryland (UMD), the US Army Research Laboratory (ARL), and Argonne National Laboratory (ANL) have developed a non-flammable fluorinated electrolyte that supports the most aggressive and high-voltage cathodes in a Li-metal battery. O 2 cathode (~99.93%). O 2 cathode (~99.93%). At a loading of 2.0

Ni-Li 186

Ni-Li Li-ion South Korea Universal 186

Green Car Congress

AUGUST 14, 2014

developing beyond Li-ion battery technologies. million in co-funding to support projects focused on beyond lithium-ion battery technologies and reducing friction and wear in the powertrain. Fuel efficiency improvements in passenger vehicles and commercial trucks. Beyond Lithium Ion Technologies (Area of Interest 3).

Plug-in 299

Plug-in Li-ion Plug Vehicles 299

Green Car Congress

JUNE 28, 2011

This includes research on appropriate anodes, cathodes, and electrolytes for magnesium (Mg)-, sodium (Na)-, and lithium (Li)-based batteries and novel transition metal oxide- and nitride-based supercapacitor electrode materials. Magnesium is much more abundant in the Earth’s crust, making it less expensive than Li by a factor of 24.

Energy Storage 207

Energy Storage Grid Energy Ni-Li 207