Green Car Congress

DECEMBER 28, 2012

Carbon is seen as an attractive potential cathode material for aprotic (non-aqueous) Lithium-air batteries, which are themselves of great interest for applications such as in electric vehicles because of the cells’ high theoretical specific energy. For their study, they cycled carbon cathodes in Li?O

Carbon 240

Carbon Li-ion Batteries Battery 240

Green Car Congress

AUGUST 26, 2018

The new work, published in Science , shows that four-electron conversion for lithium-oxygen electrochemistry is highly reversible. The Waterloo team is the first to achieve four-electron conversion, which doubles the electron storage of lithium-oxygen, also known as lithium-air, batteries. Resources.

Molten Salt 218

Molten Salt Conversion F-150 Energy 218

Green Car Congress

JULY 27, 2015

Processes for sustainable energy production must be environmentally benign, reduce greenhouse gas production, and utilize renewable resources. Photovoltaic (PV) Solar Energy. Advanced Batteries for Transportation and Renewable Energy Storage. The duration of unsolicited awards is typically three years.

Nickel Metal Hydride 150

Nickel Metal Hydride Fuel Engine Production 150

Green Car Congress

APRIL 27, 2017

Lithium-air batteries are looked to by many as a very high-energy density next-generation energy storage solution for electric vehicles. However, the technology has several holdups, including losing energy as it stores and releases its charge.The reaction mechanisms are, in general, not well understood.

Batteries 150

Batteries Battery Lithium Air Li-ion 150

Green Car Congress

MARCH 26, 2013

A new study by a team at MIT led by Dr. Yang Shao-Horn and Dr. Carl Thompson sheds more light on the morphological evolution of Li 2 O 2 particles in Lithium-air batteries. Lithium-air (Li?O The nucleation, growth, and morphological evolution of Li 2 O 2 particles have not been thoroughly investigated to date.

MIT 225

MIT Li-ion Lithium Air Batteries 225

Green Car Congress

AUGUST 10, 2011

Researchers from the Nanomaterials and Energy Group at the University of Western Ontario, Canada, report the development of graphene nanosheet (GNS) cathode materials for non-aqueous lithium-oxygen (Li-air) batteries that show a capacity of 8,705.9 Their paper appears in the RSC journal Chemical Communications.

Li-ion 199

Li-ion Energy Batteries Battery 199

Green Car Congress

MAY 27, 2014

Stuart Licht introduced the principles of a new class rechargeable molten air batteries that offer amongst the highest intrinsic electric energy storage capabilities. The iron molten air battery; illustration of the charge/discharge in molten carbonate. Earlier post.) Cui and Licht, SI. Click to enlarge.

Batteries 231

Batteries Battery Recharge Carbon 231

Green Car Congress

AUGUST 15, 2017

Lithium-air (or lithium-oxygen) batteries potentially could offer three times the gravimetric energy of current Li-ion batteries (3500 Wh/kg at the cell level); as such, they are looked to a potential solution for long-range EVs. Resources. V), where Li 2 O 2 is formed directly through electrochemical steps.

MIT 199

MIT Li-ion Toyota Batteries 199

Green Car Congress

OCTOBER 31, 2014

In the course of the past decade, due to its high theoretical energy density assumed to be comparable to that of gasoline, the lithium-air battery has attracted great attention of many academic and industrial laboratories worldwide. V cut-off voltage range applying a specific current of 100 mA g carbon -1. Resources.

Li-ion 225

Li-ion BMW Batteries Battery 225

Green Car Congress

SEPTEMBER 13, 2013

Stuart Licht have introduced the principles of a new class rechargeable molten air batteries that offer amongst the highest intrinsic electric energy storage capabilities. In 2008 a zirconia stabilized VB 2 air battery was presented. Earlier post.] —Licht et al.

Energy 309

Energy Batteries Battery Recharge 309

Green Car Congress

OCTOBER 26, 2015

Driving range could also be increased by reducing energy consumption per mile … which can be accomplished by the use of light-weight materials (e.g., carbon composite chassis explored by BMW), by improvements in electric-drive efficiency, and by advanced vehicle climatization concepts (e.g., While the so-called post-LiBs, viz.,

Lithium Sulfur 150

Lithium Sulfur Electric Vehicles Li-ion Batteries 150

Green Car Congress

MARCH 18, 2013

For vehicles, these included weight reduction and improvements in rolling and aerodynamic resistance; for fuels, carbon capture and storage (CCS). Fuel cells, batteries, biofuels, low-GHG production of hydrogen, carbon capture and storage, and vehicle efficiency should all be part of the current R&D strategy.

Hydrogen 244

Hydrogen Oil Plug-in Fuel Economy 244

Green Car Congress

JUNE 5, 2013

Scientists at Los Alamos National Laboratory (LANL) have designed a new type of nitrogen-doped carbon-nanotube catalyst that shows the highest oxygen reduction reaction (ORR) activity in alkaline media of any non-precious metal catalyst developed to date. Chung et al.Click to enlarge.

Fuel 186

Fuel Batteries Battery Li-ion 186

Green Car Congress

JUNE 21, 2013

Lithium-air batteries, with a theoretical gravimetric energy density of ?3500 3500 Wh/kg, are of great interest as next-generation energy storage systems that would enable, among other things, much longer range in EVs. Lithium-ion rechargeable batteries are based on a pair of intercalation electrodes.

Li-ion 305

Li-ion CO2 Batteries Battery 305