Dürr has announced the development of X.Cellify DC, a dry electrode coating process that forms a free-standing film of active battery material, which is fully recyclable until it is laminated onto the collector foil. The company says this approach reduces active material waste in battery electrode production, and its proof-of-concept confirms the technology’s reliability, scalability,and… Read more »
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LEAD delivers dry electrode systems for high-volume solid-state battery lines
LEAD Intelligent Equipment has delivered multiple dry electrode mixing and coating systems to established battery manufacturers, automotive original equipment manufacturers and solid-state battery firms in and outside China. LEAD highlights the system’s capability to adapt to both all-solid-state battery processes and existing liquid electrolyte battery lines, which it says helps customers manage technology transitions and… Read more »
AM Batteries helps battery makers calculate savings from dry electrode manufacturing
US-based AM Batteries (AMB) has launched an interactive Savings Calculator to enable battery makers to quantify the cost and performance impact of using its Powder-to-Electrode dry-coating equipment to produce lithium-ion batteries. The calculator uses inputs including factory location, production capacity, cathode and anode materials, electrode thickness, process yield and vendor tier to provide estimates for… Read more »
Video: The benefits and challenges of dry electrode coating technology for EV batteries
The dry electrode process is transforming battery manufacturing by eliminating solvents and streamlining production. Unlike the traditional wet slurry method, the dry electrode coating process relies on the use of special binders that can form an electrode coating without being dissolved in a solvent, such as fluoropolymer binders with Teflon™ from specialty chemical company Chemours…. Read more »
A closer look at Li-ion dry electrode coating technology
The dry electrode coating process has the potential to enable the production of better, greener, more cost-effective batteries. It relies on advanced fluoropolymer binders with Teflon™ For a few years now, Charged has been reporting on how dry electrode coating processes have the potential to revolutionize battery production by eliminating the use of hazardous, environmentally… Read more »
BWP, LiCAP and Siemens partner to mass-produce dry electrode manufacturing equipment
BW Papersystems (BWP), LiCAP Technologies (LiCAP) and Siemens have formed a strategic partnership to manufacture dry electrode systems for batteries. The partnership aims to industrialize LiCAP’s Activated Dry Electrode technology by using BWP’s and Siemens’s resources. Siemens will help to scale production for both companies. According to LiCAP, its Activated Dry Electrode technology enables the… Read more »
AM Batteries and TDK partner to optimize dry battery electrode manufacturing
AM Batteries, which is developing dry battery electrode technology, has entered a joint development agreement with Japanese electronics manufacturer TDK to develop energy-efficient battery manufacturing. The partnership aims to enhance sustainability, improve battery manufacturing scalability and accelerate the development of solid-state batteries. TDK’s investment arm TDK Ventures is an investor in AM Batteries. AM’s dry… Read more »
Dürr, Cellforce, and LiCAP develop dry coating for battery electrodes
Cellforce, a subsidiary of Porsche, is joining mechanical and plant engineering firm Dürr Systems and LiCAP Technologies to develop dry electrode battery technology as an alternative to the established wet coating process. Dürr has been working in partnership with US coating specialist LiCAP Technologies since last year, and started offering dry coating systems in 2024… Read more »
Webinar: How do conductive electrode coatings optimize the performance of dry-coated batteries?
Dry coating of lithium-ion batteries has the potential to revolutionize battery production through a reduced solvent, energy, and footprint demand. However, dry coated electrodes suffer from poor adhesion between the dry film and current collector that leads to the demand of a pre-coating. In this webinar, we will discuss how carbon coatings of current collectors… Read more »
JR Energy Solution opens foundry in Korea to make electrodes using Enevate’s silicon battery tech
JR Energy Solution (JR ES) has opened an electrode foundry in South Korea to make electrodes using Enevate‘s silicon-dominant battery technology. JR ES manufactures lithium-ion battery electrodes and offers battery cell makers and other partners custom electrodes and cell solutions. Enevate claims its silicon-dominant battery enables charging speeds up to 10 times faster than those… Read more »