Green Car Congress

JUNE 13, 2019

The SLMA consists of lithium microparticles evenly distributed in a dual-conductive polymer matrix. Working with the Mellon College of Science’s Matyjaszewski, a leader in polymer chemistry and materials science, and Jay Whitacre, Trustee Professor in Energy in the College of Engineering and director of the Wilton E.

Polymer 255

Polymer Recharge Energy Storage Sodium 255

Green Car Congress

JUNE 7, 2019

Researchers at the Fraunhofer Institute for Material and Beam Technology IWS in Dresden have developed a new battery cell production process that coats the electrodes of the energy storage cells with a dry film instead of liquid chemicals. This simplified process saves energy and eliminates toxic solvents. © Fraunhofer IWS.

Low Cost 339

Low Cost Production Energy Storage Polymer 339

Green Car Congress

NOVEMBER 25, 2009

The US Department of Energy is awarding $620 million for projects around the country to demonstrate advanced Smart Grid technologies and integrated systems. The selected projects include advanced battery systems (including flow batteries), flywheels, and compressed air energy systems. Tehachapi Wind Energy Storage Project.

Energy Storage 270

Energy Storage Grid Energy Wind 270

Green Car Congress

FEBRUARY 24, 2017

The goal of the Energy for Sustainability program is to support fundamental engineering research that will enable innovative processes for the sustainable production of electricity and fuels, and for energy storage. Flow batteries for energy storage applications are also appropriate.

Nickel Metal Hydride 170

Nickel Metal Hydride Energy Storage Lead Acid Lithium Ion 170

Green Car Congress

APRIL 1, 2011

John Goodenough, are proposing a strategy for high-capacity next-generation alkali (lithium or sodium)-ion batteries using water-soluble redox couples as the cathode. The cell operates without a catalyst and has high storage efficiency. The present sodium-sulfur battery operates above 300 °C. V and charges at 4.2-4.4

Sodium 218

Sodium Li-ion Water Texas 218

Green Car Congress

JULY 27, 2015

Advanced Batteries for Transportation and Renewable Energy Storage. The focus is on high-energy density and high-power density batteries suitable for transportation and renewable energy storage applications.

Nickel Metal Hydride 150

Nickel Metal Hydride Fuel Engine Production 150

Green Car Congress

SEPTEMBER 28, 2013

Currently, eight MXenes have been reported by our team, but there are likely many more that will be discovered—the MXene-and-ion combinations that have been tested to date are by no means an exhaustive demonstration of the material’s energy storage capabilities. —Yury Gogotsi.

Lithium Ion 247

Lithium Ion Energy Storage France Sodium 247

Green Car Congress

JUNE 19, 2013

A team at the University of Maryland has demonstrated that a material consisting of a thin tin (Sn) film deposited on a hierarchical conductive wood fiber substrate is an effective anode for a sodium-ion (Na-ion) battery, and addresses some of the limitations of other Na-ion anodes such as capacity fade due to pulverization. —Zhu et al.

Maryland 199

Maryland Grid Li-ion Batteries 199

Cars That Think

NOVEMBER 1, 2023

Not least of those considerations is energy storage [and generation].” Challenges: Sustainability and industry collaboration This efficient energy harvester combines piezoelectric composites with carbon fiber–reinforced polymer and epoxy resin, a unique combination that was able to store electricity even after 100,000 uses.

Energy 143

Energy Carbon Fiber Solar Universal 143

Green Car Congress

JANUARY 9, 2013

Over the years, extensive efforts have been devoted to addressing the first two problems, by encapsulating sulphur particles with conducting materials, including porous carbon, graphene oxide and conductive polymers, in an attempt to improve their electronic conductivity and limit polysulphide dissolution. Click to enlarge.

Lithium Sulfur 231

Lithium Sulfur Batteries Battery Energy Storage 231

Green Car Congress

OCTOBER 26, 2009

The projects selected are grouped into 10 areas: Energy Storage (6 projects). Biomass Energy (5 projects). Conventional Energy (1 project). ENERGY STORAGE. Electronville: High-Amperage Energy Storage Device-Energy Storage for the Neighborhood. Carbon Capture (5 projects).

Energy 231

Energy Grant Low Cost Li-ion 231

Green Car Congress

APRIL 12, 2015

Researchers at the Skoltech Center for Electrochemical Energy Storage (CEES), a partnership between the MIT Materials Processing Center and Lomonosov Moscow State University, are focusing on the development of higher capacity batteries. Craig Carter, with their associates, published a study in Advanced Energy Materials (Li et al.

MIT 150

MIT Li-ion Batteries Battery 150