This site uses cookies to improve your experience. To help us insure we adhere to various privacy regulations, please select your country/region of residence. If you do not select a country, we will assume you are from the United States. Select your Cookie Settings or view our Privacy Policy and Terms of Use.
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Used for the proper function of the website
Used for monitoring website traffic and interactions
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Strictly Necessary: Used for the proper function of the website
Performance/Analytics: Used for monitoring website traffic and interactions
Solid-state sodium-ion battery company LiNa Energy ( earlier post ) successfully completed an independent demonstration of its lithium-free sodium batteries for energy storage systems with commercial partner ion Ventures.
China-based Gotion High-Tech launched its L600 Astroinno lithium manganese iron phosphate (LMFP) battery cell and pack at the 12 th Gotion Technology Conference. It is due to the high energy density of Astroinno battery that we can enable a range of 1000km without relying on NCM materials.
Among the technologies displayed at 2022 GAC Tech day at the GAC R&D Center was a new-generation LFP battery built on microcrystalline technology (SmLFP). Compared with the current mass-produced lithium iron phosphate batteries on the market, the super-energy lithium iron battery has an increase of 13.5%
StoreDot , a developer of extreme fast charging (XFC) batteries for electric vehicles ( earlier post ), announced that independent battery lab Shmuel De-Leon Energy (SDLE) successfully validated the performance of the StoreDot technology. StoreDot 30Ah silicon-dominant EV battery cell.
Revel, NineDot Energy and Fermata Energy announced that the first Vehicle to Grid (V2G) program connected to NYC’s grid is now live at Revel’s Red Hook, Brooklyn warehouse. The V2G system uses three Fermata Energy bidirectional chargers operating on a cloud-based platform. Photo Courtesy of Revel.
StoreDot, a developer of extreme fast charging high energybatteries for electric vehicles, announced that its XFC batteries and systems are now being tested by more than 15 global automotive brand manufacturers, and that it has additional potential manufacturing partnerships in the pipeline for this year.
At Auto Shanghai, Chinese battery giant CATL launched what it calls a “condensed battery”—a type of semi-solid state cell with an energy density of up to 500 Wh/kg. CATL says the cell can achieve high energy density and high level of safety at the same time, opening up a new electrification scenario for passenger aircraft.
Renewable energy sources are central to the energy transition toward a more sustainable future. However, because sunshine and wind are inherently variable and inconsistent, finding ways to store energy in an accessible and efficient way is crucial. An open-access paper on the work is published in the journal Energies.
Amprius Technologies, developer of the Silicon Anode Platform for batteries, has verified a lithium-ion cell delivering energy density of 500 Wh/kg, 1300 Wh/L, resulting in unparalleled run time. The results indicate that this cell model provides >504 Wh/kg and >1321 Wh/l at 25°C.
Researchers at the Illinois Institute of Technology (IIT) and US Department of Energy’s (DOE) Argonne National Laboratory have developed a lithium-air battery with a solid electrolyte. The battery is rechargeable for 1000 cycles with a low polarization gap and can operate at high rates. —Kondori et al.
A research team from Japan has recently developed a novel electrode material for all-solid-state batteries (ASSBs) by combining lithium sulfate and lithium ruthenate, which results in improved performance. Utilization of high-capacity lithium-excess electrode materials is effective for the further increase in energy density.
Researchers at Japan’s National Institute for Materials Science (NIMS) and the NIMS-SoftBank Advanced Technologies Development Center have developed a lithium-air battery with an energy density of more than 500 Wh/kg—significantly higher than currently lithium ion batteries.
Taiwan-based ProLogium has chosen France as the location for its first large-scale solid-state battery manufacturing facility outside of Taiwan. This major investment project aims to facilitate supply chain localization, R&D activities, and the manufacturing of next-generation batteries in Europe for ProLogium.
a developer of multi-process additive manufacturing (AM) technology, has produced a 3Ah lithium-metal solid-state battery (SSB) that equals or betters current lithium-ion batteries. These first-generation batteries comprise 30 sub-cells, utilize lithium-metal and a proprietary printed ceramic separator. Earlier post.).
In a paper in Chinese Physical Letters , researchers from the Chinese Academy of Sciences report manufacturing practical pouch-type rechargeable lithium batteries with a gravimetric energy density of 711.3 Wh⋅kg −1 and a volumetric energy density of 1653.65 are all feasible to achieve a high value of energy density.
The Fraunhofer Institute for Material and Beam Technology IWS in Dresden is leading a research project targeting a new generation of sulfur-based batteries. Free of the critical elements cobalt and nickel used in lithium-ion technology, sulfur achieves very high energy densities in solid-state batteries. million in funding.
(TEPCO HD) and Toyota Motor Corporation (Toyota) have developed a stationary storage battery system (1 MW output, 3 MWh capacity) that combines TEPCO’s operating technology and safety standards for stationary storage batteries and Toyota’s system technology for electrified vehicle storage batteries.
Nissan unveiled its prototype production facility for laminated all-solid-state battery (ASSB) cells, which the company aims to bring to market in 2028. This prototype facility, within the Nissan Research Center in Kanagawa Prefecture, is aimed to further promote the development of all-solid-state-batteries.
Cummins has invested $24 million in Germany-based VoltStorage, a developer of stationary flow batteries. The company says that it has the largest fleet of operating flow batteries in the world. By investing in VoltStorage, we are taking steps to advance solutions focused on the grid and energy storage. Source: VoltStorage.
The Department of Energy’s (DOE’s) Vehicle Technologies Office estimates the cost of an electric vehicle lithium-ion battery pack declined 89% between 2008 and 2022 (using 2022 constant dollars). The 2022 estimate is $153/kWh on a usable-energy basis for production at scale of at least 100,000 units per year. Source: DOE.
Umicore and Blue Current , a manufacturer of silicon elastic composite solid-state batteries, have agreed to strengthen their collaboration on the development of solid-state battery technology, with Umicore investing a minority stake in the US-based start-up. In June 2022, Umicore and Idemitsu Kosan Co.,
IONETIC , a UK start-up specializing in electric vehicle (EV) battery pack technology, launched its EV battery pack design platform, which the company says can cut the development cost and time for automotive manufacturers bringing a new electric vehicle to market. IONETIC’s battery modules have an energy density of 226Wh/kg.
Using a microscopic method for measuring electrical potential, a team of scientists at Sandia National Laboratories may have discovered how to identify rate-limiting processes in solid-state batteries. The findings are detailed in a paper in American Chemical Society Energy Letters. —Fuller et al. Illustration courtesy of S.
Factorial, a developer of next-generation solid-state battery cells for electric vehicles, previewed a 100 Ah battery cell at CES 2023 in the Stellantis exhibition space. Factorial’s battery features a polymer-based solid electrolyte and a lithium-metal anode. Earlier post.).
The results of the Life Cycle Assessment (LCA) of greenhouse gas emissions and primary energy demand of the cars tested by Green NCAP in 2022 show that the current and continuous trend towards larger and heavier cars, significantly increases the negative impact on climate and energy demand.
Sakuu , developer of the first 3D-printed solid-state battery ( earlier post ), reports achieving an energy-density of 800 Wh/L in its first-generation non-printed lithium-metal battery. In addition to the 800 Wh/L mark, the first-generation lithium-metal battery is demonstrating high energy retention at 97% after 200 cycles.
Charge CCCV (C4V), a lithium ion battery technology company ( earlier post ), has introduced LiSER (Lithium Slim Energy Reserve), a novel cell technology platform. C4V’s LiSER technology encompasses an in-house patented battery cell design that allows OEMs to bypass modules and build the pack directly.
Germany-based Liacon, one of Europe’s largest battery manufacturers, has released a new, more versatile lithium-iron-phosphate (LFP) battery that can replace all Group 31 lead-acid units. Group 31 batteries are one of the highest selling in the market. Lead acid batteries typically get 200-400 cycles before they fail.
Solid-state battery startup QuantumScape, which successfully shipped its first 24-layer prototype A0 lithium-metal battery cells to automotive OEMs for testing in December ( earlier post ), says that one of its main goals this year is to increase cathode capacity loading to ~5 mAh/cm 2. Not to scale.
Trading Economics global macro models and analysts expectations forecast battery-grade lithium carbonate to trade at 504,813 CNY (US$74,000) per tonne in 12 months time. Lithium is expected to trade at 484,185.00 by the end of this quarter. Earlier post.).
With the accelerating transition to electric vehicles (EVs), demand for the materials used to produce batteries will increase significantly and rapidly. Aside from the lithium needed to produce modern lithium-ion batteries, much attention is focused on the cost of the materials used for EV battery cathode production.
Recent battery fires have renewed investigation of the safety of Li-ion batteries. One possible path to battery safety is a solid-state battery that replaces the volatile and flammable liquid electrolyte with a non-flammable solid electrolyte. Potential temperature rise based on cell format or increasing energy density.
Stellantis’s Jeep brand is introducing the battery-electric Jeep Avenger ( earlier post ) in Europe. Starting from this platform, the front and rear overhangs have been minimized designing completely new crash boxes, which are 30 mm shorter and offer the same energy-absorbing performance. Avenger offers energy consumption of 15.4
All-solid-state lithium batteries could address a number of the shortcomings of conventional lithium-ion batteries in advanced applications such as in electric vehicles, which demand high energy densities, fast charging, and long cycle lives. cm 2 ) by annealing the sample in a battery form. —Kobayashi et al.
Optodot is a developer and licensor of nano-composite battery separators and infrared optical coating technologies, based in Devens, Massachusetts. META’s Advanced Materials and Battery Products group will continue joint development, licensing, and manufacturing scale-up of Optodot’s technology in partnership with leading OEMs.
After three years of intensive studies covering the entire lifecycle of an all-electric aircraft, Tecnam is halting development of the all-electric P-Volt aircraft, mainly due to concerns about current battery technology. The company will continue to explore new emerging technologies.
The extremely slim high-voltage battery with a cell height of just 4.3-inches kWh of usable energy. The high-voltage battery is heated using a dedicated 5.5 Energy is no longer supplied to the two electric motors in this state, meaning no battery power is consumed. kW electric flow heater.
Sakuu Corporation ( earlier post ) has successfully and consistently 3D-printed fully functional high-performance batteries in custom shapes and sizes since December 2022. Further, our printing process can allow for substantial gains in energy density for a completed battery.
Battery swap stations are Nio’s signature replenishment facility, and it is currently the only company offering such models to the general consumer. There are also other companies in China that offer models with battery swap support, but for the taxi market. Swapping to become more efficient by using smaller batteries.
The US Department of Energy (DOE), through its Loan Programs Office (LPO), announced the closing of a $2.5-billion billion loan to Ultium Cells LLC to help finance the construction of new lithium-ion battery cell manufacturing facilities in Ohio, Tennessee, and Michigan.
A team from the German research institute ZSW (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg) and advanced materials company E-magy have shown a less than 1% battery cell expansion in a silicon-dominant lithium-ion battery for the first time. energy density. Maroni et al. Fabio Maroni et al. Electrochem.
Researchers led by the Department of Energy’s Pacific Northwest National Laboratory (PNNL) have extended the capacity and duration of sodium-aluminum batteries. The new sodium-based molten salt battery uses two distinct reactions. The team previously reported a neutral molten salt reaction. of peak charge capacity. Weller et al.
In addition, TMMT will be Toyota’s first European plant to start producing plug-in hybrid vehicles, and the first to be equipped with a battery production line. Alongside the vehicle production line, TMMT will build a new plug-in battery assembly line with a capacity of 75,000 units per year within its facility.
BYD has produced its 5 millionth new energy vehicle (NEV), a DENZA N7. In 2022, BYD’s new energy vehicles saw total sales surpass 1.86 As of July 2023, BYD’s global new energy vehicle sales have soared beyond 4.8 The momentum continued in 2023, as the company reached a cumulative sales volume of 1.5 million units cumulatively.
We organize all of the trending information in your field so you don't have to. Join 5,000+ users and stay up to date on the latest articles your peers are reading.
You know about us, now we want to get to know you!
Let's personalize your content
Let's get even more personalized
We recognize your account from another site in our network, please click 'Send Email' below to continue with verifying your account and setting a password.
Let's personalize your content