Green Car Congress

MARCH 13, 2015

Researchers at the Beijing Institute of Technology have found a way to process biomass-derived natural silk to create carbon-based nanosheets that could potentially be used in Li-ion batteries and other energy storage devices. Electrochemical performances of HPNC-NS as a Li-ion battery anode. Click to enlarge.

Li-ion 150

Li-ion Energy Storage Energy Batteries 150

Green Car Congress

FEBRUARY 4, 2014

A major barrier to the use of high energy capacity silicon in a lithium-ion battery is the volumetric expansion of silicon under lithiation and delithiation, which results in electrode degradation and capacity fade. Silicon (shown in grey) is capable of holding 10 times as many lithium ions (shown in pink) as currently-used anodes.

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Li-ion Insight Lithium Ion Batteries 199

Green Car Congress

MARCH 1, 2017

The cells use a solid glass electrolyte having a Li + or Na + conductivity >10 -2 S cm -1 at 25 ˚C with a motional enthalpy ≈ 0.06 lithium, sodium or potassium) on a copper–carbon cathode current collector at a voltage of more than 3.0 eV, which promises to offer acceptable operation at lower temperatures.

Li-ion 150

Li-ion Sodium Austin Batteries 150

Charged EVs

APRIL 1, 2024

The economic benefits of recycling Li-ion batteries are clear, but at present, only a small percentage of them are recycled. The two main processes for recycling lithium-ion batteries are pyrometallurgy and hydrometallurgy. Pyrometallurgy, which traditionally doesn’t recover carbon or lithium, seems likely to be phased out.

Building 96

Building Batteries Battery Lithium Ion 96

Green Car Congress

JANUARY 18, 2017

Substantial progress in battery technology is essential if we are to succeed in an energy transition towards a more carbon-neutral society. Under such a scenario, the production of Li-ion batteries should expand hugely over the years to come, hence reviving the issue of finite Li reserves. —Grey and Tarascon.

Li-ion 150

Li-ion Ni-Li Batteries Battery 150

Green Car Congress

JANUARY 22, 2010

This investment is part of our ongoing strategy to put the UK at the forefront of low carbon vehicle technology. The work will help to accelerate the reduction of carbon emissions and deliver mass-market low carbon road vehicles within 5 to 15 years. Development of high energy Li-S prototype battery cells.

Carbon 225

Carbon Li-ion Downsizing Gas 225

Baua Electric

APRIL 1, 2024

The economic benefits of recycling Li-ion batteries are clear, but at present, only a small percentage of them are recycled. The two main processes for recycling lithium-ion batteries are pyrometallurgy and hydrometallurgy. Pyrometallurgy, which traditionally doesn’t recover carbon or lithium, seems likely to be phased out.

Building 52

Building Batteries Battery Charging 52

Green Car Congress

MARCH 1, 2012

Cycling performance of Li/SeS 2 ?C, Researchers at Argonne National Laboratory have developed selenium and selenium–sulfur (Se x S y )-based cathode materials for a new class of room-temperature lithium and sodium batteries. Unlike the widely studied Li/S system, both Se and Se x S y can be cycled to high voltages (up to 4.6

Recharge 220

Recharge Ni-Li Li-ion Batteries 220

Green Car Congress

MARCH 15, 2011

published in the ACS journal Chemical Reviews , reviews in detail four stationary storage systems considered the most promising candidates for electrochemical energy storage: vanadium redox flow; sodium-beta alumina membrane; lithium-ion; and lead-carbon batteries. Sodium-beta alumina membrane battery. —Yang et al.

Li-ion 231

Li-ion Energy Storage Grid Carbon 231

Green Car Congress

DECEMBER 4, 2013

Cycle performance of Li cells with (a, b) Se?, (c, carbon composite as cathodes in ether-based electrolyte. The researchers have focused on carbon-selenium sulfide composites as an alternative material to the conventional lithium transition metal oxide positive electrode material in standard Li-ion batteries.

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Li-ion Energy Lithium Ion Lithium Sulfur 225

Green Car Congress

DECEMBER 29, 2014

Researchers from Nanyang Technical University (NTU) in Singapore have shown high-capacity, high-rate, and durable lithium- and sodium-ion battery (LIB and NIB) performance using single-crystalline long-range-ordered bilayered VO 2 nanoarray electrodes. VO 2 nanobelts are beneficial to fast ion diffusion. Click to enlarge.

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Li-ion Ni-Li Sodium Batteries 186

Green Car Congress

JANUARY 29, 2018

Researchers at WMG (Warwick Manufacturing Group), The University of Warwick (UK) have developed Silicon-Few Layer Graphene (Si-FLG) composite electrodes as an effective approach to replacing graphite in the anodes of lithium-ion batteries. Graphene is a single, one-atom-thick layer of the mineral graphite (an allotrope of carbon).

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Li-ion Lithium Ion Batteries Battery 191

Green Car Congress

JUNE 7, 2011

low-cost Na-ion battery system for upcoming power and energy. low-cost Na-ion battery system for upcoming power and energy. Lithium-ion rechargeable batteries perform well, but are too expensive for widespread use on the grid. Sodium-ion batteries have been discussed in the literature. Na-ion batteries.

Sodium 218

Sodium Recharge Li-ion Batteries 218

Cars That Think

DECEMBER 24, 2023

Compared to a traditional flow battery of comparable size, it can store 15 to 25 as much energy, allowing for a battery system small enough for use in an electric vehicle and energy-dense enough to provide the range and the speedy refill of a gasoline-powered vehicle. There is only so much salt you can dissolve in a glass of water.

Lithium Ion 145

Lithium Ion Batteries Battery Li-ion 145

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). V lower than that of the corresponding Li voltages. eld of Na-ion batteries.

Sodium 231

Sodium Maryland Li-ion Lithium Ion 231

Charged EVs

FEBRUARY 6, 2024

However, at the start of its useful life an EV tends to come with a higher “carbon backpack” because of the battery. Cathode active materials are not only a performance and cost driver in EV batteries—they are also a significant contributor to an EV’s overall emissions, so the cathode is in the spotlight of carbon reduction efforts.

North America 96

North America Batteries Battery Supplies 96

Green Car Congress

APRIL 12, 2015

CEES has three main research thrusts: the development of advanced lithium-ion and multivalent ion batteries; the development of rechargeable metal-air batteries; and Development of reversible low and elevated temperature fuel cells. Advanced Li-ion and multivalent ion batteries. Rechargeable metal-air batteries.

MIT 150

MIT Li-ion Batteries Battery 150

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

Charged EVs

FEBRUARY 7, 2023

Graphite is a pure form of carbon. Its physical structure allows it to store lithium ions. This crystalline carbon allotrope is good for more than just pencils—it’s found in every EV battery anode, and producing graphite in the forms needed to build high-performance battery cells is a complex and exacting process.

Future 114

Future Batteries Battery Li-ion 114

Baua Electric

FEBRUARY 6, 2024

However, at the start of its useful life an EV tends to come with a higher “carbon backpack” because of the battery. Cathode active materials are not only a performance and cost driver in EV batteries—they are also a significant contributor to an EV’s overall emissions, so the cathode is in the spotlight of carbon reduction efforts.

North America 52

North America Batteries Battery Charging 52

Green Car Congress

OCTOBER 26, 2009

Carbon Capture (5 projects). Eagle Picher, in partnership with the Pacific Northwest National Laboratory, will develop a new generation of high energy, low cost planar liquid sodium beta batteries for grid scale electrical power storage applications. Silicon Coated Nanofiber Paper as a Lithium-Ion Anode. DOE grant: $7,200,000).

Energy 231

Energy Grant Low Cost Li-ion 231

Tony Karrer Delicious EVdriven

APRIL 28, 2009

Price tag: about $25,000, made from 95% recyclable materials with a top speed of 65 miles per hour and range of 110 miles per charge. The MiEV runs on a lithium-ion battery pack that can be charged in seven or so hours on a 240-volt line. market b y the end of 2009. Think has established a U.S. before 2010. safety requirements.

Manufacturer 34

Manufacturer Electric Cars Cars i-MiEV 34