Green Car Congress

JANUARY 7, 2015

A team from the University of Rome Sapienza has developed a rechargeable lithium-ion polymer battery based on the combination of a high capacity sulfur-carbon cathode, nanostructured Li x Sn-C anode and polysulfide-added PEO-based gel membrane. mAh g S -1 , depending on the cycling rate. —Agostini & Hassoun (2015).

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Li-ion Polymer Lithium Sulfur Energy 150

Green Car Congress

DECEMBER 13, 2016

Researchers at the University of Texas at Austin, including Prof. With this glass, a rechargeable battery with a metallic lithium or sodium anode and an insertion-compound as cathode may require a polymer or liquid catholyte in contact with the cathode. Click to enlarge. —Braga et al. Maria Helena Braga, Nicholas S.

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Low Cost Recharge Austin Li-ion 150

Green Car Congress

NOVEMBER 21, 2009

Sample UDRI solid-state, rechargeable lithium-air batteries, and Dr. Binod Kumar. Engineers at the University of Dayton Research Institute (UDRI) have developed a solid-state, rechargeable lithium-air battery. The cell exhibited excellent thermal stability and rechargeability in the 30–105 °C temperature range.

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Lithium Air Recharge Li-ion Batteries 287

Green Car Congress

MARCH 8, 2013

Schematic illustration of the aqueous rechargeable lithium battery (ARLB) using the coated lithium metal as anode, LiMn 2 O 4 as cathode and 0.5 Researchers from Fudan University in China and Technische Universität Chemnitz in Germany have developed an aqueous rechargeable lithium battery (ARLB) using coated Li metal as the anode.

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Li-ion Low Cost Recharge Ni-Li 281

Green Car Congress

APRIL 4, 2017

MIT’s Martin Bazant, joined by colleagues at Stanford University and Purdue University, will lead an effort to develop a novel, data-driven design of lithium-ion (Li-ion) batteries. Also funded as part of the $35-million TRI program are: The University of Buffalo ($2.4 The University of Michigan ($2.4

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MIT Batteries Battery Li-ion 150

Green Car Congress

SEPTEMBER 29, 2011

(a) Chemical structure of the PEDT:PSSH polymer blend. (b) A team from the National University of Singapore's Nanoscience and Nanotechnology Initiative (NUSNNI), led by principle investigator Dr. Xian Ning Xie, has developed a polystyrene membrane-based supercapacitor that they say will be easier to scale up than the current alternatives.

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Energy Storage Singapore Universal Polymer 259

Green Car Congress

FEBRUARY 11, 2014

Researchers led by chemist Joseph DeSimone at the University of North Carolina at Chapel Hill, in collaboration with Nitash P. Balsara at UC Berkeley, have identified a new class of nonflammable electrolytes based on functionalized perfluoropolyethers (PFPEs) for lithium-ion batteries. earlier post.). —Prof. Joseph DeSimone.

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Li-ion Dominica Lithium Ion Batteries 261

Green Car Congress

APRIL 23, 2019

A Columbia Engineering team led by Yuan Yang, assistant professor of materials science and engineering, has developed a new method for safely prolonging battery life by inserting a nano-coating of boron nitride (BN) to stabilize solid electrolytes in lithium metal batteries. When combined with ?1–2 after 500 cycles. —Yuan Yang.

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Li-ion Batteries Battery Lithium Ion 207

Green Car Congress

JANUARY 21, 2013

John Goodenough at the University of Texas at Austin and colleague Kyu-Sung Park have written a perspective paper on Li-ion batteries (LIBs), published in the Journal of the American Chemical Society. More recently, at the University of Texas, Austin, Dr. Goodenough patented a new class of iron phosphate materials.

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Li-ion PHEV Transportation Batteries 262

Green Car Congress

OCTOBER 9, 2014

The Global Climate and Energy Project (GCEP) at Stanford University has awarded $10.5 million for seven research projects designed to advance a broad range of renewable energy technologies, including solar cells, batteries, renewable fuels and bioenergy. Photo-electrochemically rechargeable zinc-air batteries.

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Renewable Solar Zinc Air Energy 225

Green Car Congress

NOVEMBER 16, 2018

Of those selected, approximately 43% of OPEN 2018 projects will be led by universities, 35% by small businesses, and the remainder by large businesses, non-profit organizations or federally funded research and development centers (FFRDCs). Novel Polymer-enhanced Rechargeable Aluminum-Alkaline Battery Technology – $2,000,000.

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Engine San Diego Polymer Lithium Ion 247

Green Car Congress

OCTOBER 24, 2016

A team at Columbia University, with colleagues from Institute Recherche d’Hydro-Québec (IREQ), has developed a new pre-lithiation method to increase the energy density of lithium (Li-ion) batteries by utilizing a trilayer structure that is stable even in ambient air.

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Li-ion Energy Polymer Batteries 150

Green Car Congress

NOVEMBER 26, 2012

Organic materials for batteries have received much attention because of their beneficial properties such as light weight, flexibility and availability from easily accessible natural sources. discharge properties as a cathode material in a Li-ion battery. Credit: ACS, Nokami et al. Click to enlarge. —Nokami et al.

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Li-ion Charging Batteries Battery 287

Green Car Congress

SEPTEMBER 16, 2016

million in funding to a team that includes 24M, Sepion Technologies , Berkeley Lab, and Carnegie Mellon University. The funds will be used to develop novel membranes and lithium-metal anodes for the next generation of high-energy-density, low-cost batteries. Those inactive materials are expensive and wasteful. Click to enlarge.

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Li-ion Lithium Ion Energy Polymer 150

Green Car Congress

SEPTEMBER 7, 2013

Kentucky Governor Steve Beshear announced that start-up lithium-sulfur battery company NOHMs (Nano Organic Hybrid Materials) Technologies Inc. has selected to locate its research, manufacturing and product development facility for military, cell phone and electric vehicle lithium-ion batteries in Lexington. Technology.

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Lithium Sulfur Companies Kentucky Lithium Ion 246

Green Car Congress

JANUARY 24, 2017

Korea’s UNIST, with colleagues from Northwestern University, have successfully developed a new way to increase the activity of perovskite oxide catalysts for the oxygen reduction reaction (ORR) and/or the oxygen evolution reaction (OER) in rechargeable metal-air batteries and fuel cells simply by adding the conductive polymer polypyrrole.

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Fuel Batteries Battery Recharge 150

Green Car Congress

JUNE 27, 2014

Scientists at USC have developed a novel water-based Organic Redox Flow Battery (ORBAT) for lower cost, long lasting large-scale energy storage. ORBAT employs two different water-soluble organic redox couples on the positive and negative side of a flow battery. None of today’s mature battery technologies meet all of these requirements.

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Energy Storage Energy Batteries Battery 290

Cars That Think

NOVEMBER 1, 2023

And today, technology is maturing to the point that meaningful amounts of these energy giveaways can be harvested to liberate wearables from ever needing a battery. There are, researchers have discovered, a wide range of options to harvest enough microwatts to replace wearables’ batteries. Batteries die before animals do.

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Energy Solar Carbon Fiber Universal 136

Green Car Congress

AUGUST 24, 2016

A team at the Ohio State University has developed a membrane that regulates bi-directional ion transport across it as a function of its redox state and that could be used as a programmable smart membrane separator in future supercapacitors and redox flow batteries. plugin EVs to Tesla’s 85 kWh battery pack). Click to enlarge.

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Energy Storage Energy Power Powered 150

Green Car Congress

APRIL 1, 2011

Example of a lithium-water rechargeable battery. Researchers at the University of Texas, including Dr. 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. A typical Li-air battery discharges at 2.5-2.7

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Sodium Water Li-ion Texas 218

Green Car Congress

MAY 5, 2014

air batteries. A new review of Li-air battery technology by a team from Argonne National Laboratory, Beijing Institue of Technology and Hanyang University focuses on the most critical issues that must be addressed for the successful development and commercialization of high energy density Li-air batteries.

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Li-ion Batteries Battery China 303

Green Car Congress

FEBRUARY 10, 2015

DNA has a high concentration of heteroatoms, including oxygen, nitrogen and phosphorus, that can anchor soluble polysulfides to improve the cycling performance of Li/S batteries. Rechargeable lithium/sulfur battery promises an appealing candidate for energy storage to power portable devices and electric vehicles.

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Lithium Sulfur Batteries Battery Carbon 150

Green Car Congress

NOVEMBER 2, 2011

A team from Lawrence Berkeley National Laboratory and Tsinghua University (China) have synthesized graphene oxide-sulfur (GO-S) nanocomposite cathodes and applied them in lithium/sulfur cells to show a high reversible capacity of 950-1400 mAh g -1 and stable cycling for more than 50 deep cycles at 0.1C (1C = 1675 mA g -1 ). Click to enlarge.

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Lithium Sulfur Li-ion Batteries Battery 186

Green Car Congress

JULY 7, 2016

Silatronix, a developer of unique organosilicon (OS) electrolytes for use in lithium-ion batteries (LIBs) ( earlier post ), has raised US$8 million in new equity capital, and secured partnerships for distribution and joint technological development. Usrey et al. Click to enlarge. Basic structure of an OS electrolyte compound.

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Li-ion Batteries Battery Wisconsin 150

Green Car Congress

FEBRUARY 10, 2015

Lawrence Berkeley National Laboratory (Berkeley Lab) battery scientist Nitash Balsara and co-inventor Joseph DeSimone of the University of North Carolina at Chapel Hill, have launched Blue Current , a startup company backed by investment firm Faster LLC, to commercialize their non-flammable electrolytes for Li-ion batteries.

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Li-ion Commercial Lithium Ion Batteries 150

Green Car Congress

AUGUST 1, 2010

The Batteries for Advanced Transportation Technologies (BATT) Program is awarding more than $8 million to eight R&D projects on lithium battery anodes. These projects focus on developing next-generation anodes to increase the energy and decrease the cost of lithium batteries while maintaining safety and cycle life.

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Li-ion Batteries Battery Lithium Ion 186

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. A team at the University of St. O2 battery. Andrews (Scotland) led by Prof.

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Carbon Li-ion Batteries Battery 240

Plug In India

SEPTEMBER 7, 2022

By Kamlesh & Raphae Every major automaker has announced plans to build Lithium-Ion battery gigafactories. The aim is to build batteries at a large scale to reduce prices. Video: EV Guru: Sodium-Ion Batteries are Coming Sooner Than You think! Multiple auto makers are seeking a secure supply chain for battery materials.

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Sodium Li-ion Batteries Battery 59

Green Car Congress

JANUARY 9, 2013

Researchers at Stanford University and SLAC led by Stanford associate professor Yi Cui have used a sulfur–TiO 2 yolk–shell design for a cathode material for a lithium-sulfur battery that achieved an initial specific capacity of 1,030?mAh?g This is a very important achievement for the future of rechargeable batteries.

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Lithium Sulfur Batteries Battery Energy Storage 231

Green Car Congress

OCTOBER 10, 2011

The California Energy Commission has awarded $1,585,490 to spur research on projects including a solid-state Li-ion battery system for grid-scale energy storage. to develop and test a 25 kWh prototype battery system based on nanostructured polymer electrolytes. Commissioners approved $600,000 to Seeo Inc. Earlier post.).

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Li-ion Grid Energy California 186

Green Car Congress

APRIL 30, 2010

The second round was focused specifically on three areas of technology representing new approaches for advanced microbial biofuels (electrofuels); much higher capacity and less expensive batteries for electric vehicles; and carbon capture. NC State University. Medical University of South Carolina. Columbia University.

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Carbon Batteries Battery Li-ion 249

Green Car Congress

MAY 28, 2015

Of these, 16 are vehicle-related, encompassing projects developing batteries, power electronics and improved combustion engine technology including on-board reformers, and two are specifically hydrogen fuel cell-related. High Loading Lithium-Ion Electrode Architecture for Low Cost Electric Vehicle Batteries Ballast Energy, Inc.

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Li-ion Battery Powered Engine Lithium Ion 150

Green Car Congress

AUGUST 14, 2014

A team at Cornell University led by Dr. Lynden Archer has used simple liquid electrolytes reinforced with halogenated salt blends to stabilize lithium metal anodes in a rechargeable battery. The dendrite problem has been troubling lithium battery technology for years. Earlier post , earlier post.). —Lu et al.

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Recharge Batteries Battery Energy 218

Green Cars News

JUNE 20, 2011

With €3.5million in funding, a two-year research project has been launched by an EU consortium with the aim of developing fast rechargeable zinc-polymer batteries for hybrid and electric vehicles.

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Polymer Electric Cars Batteries Battery 54

Cars That Think

JANUARY 26, 2024

Recent solid-state battery announcements by Volkswagen and QuantumScape are raising hopes in the electric vehicle market, but automotive battery experts are warning that the road to widespread, solid-state success is still a long and arduous one. And lithium-ion took a long time to get there.” “I

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Batteries Battery Lithium Ion Production 130

Green Car Congress

SEPTEMBER 14, 2016

IONICS project teams are paving the way for technologies that overcome the limitations of current battery and fuel cell products. In particular, IONICS projects will work to improve energy storage and conversion technologies in three categories: transportation batteries, grid-level storage, and fuel cells.

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Li-ion Polymer Batteries Battery 150

Green Car Congress

NOVEMBER 25, 2009

The selected projects include advanced battery systems (including flow batteries), flywheels, and compressed air energy systems. In partnership with a consortium of local research institutions, this project deploy smart grid systems at partners’ university campus properties and technology transfer laboratories.

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