virtual battery day
The event all about tomorrow’s battery technology
on November 15, 2023
The virtual battery day 2023
With more than 200 companies and start-ups, the virtual battery day on November 15, 2023, is the highlight for everyone
who are involved in the manufacturing, development, production, quality assurance and recycling of electrochemical energy storage systems.
Join this digital event as one of over 600 expected attendees and learn more about
innovations, technologies, products and solutions along the battery value chain. A special focus will be on sharing knowledge and ideas in the field of battery analysis and battery testing through whitepapers and webinars.
4 reasons why you should attend as visitor
- Experience exciting presentations and practical information on topics ranging from research and development of new battery technologies to recycling of battery materials.
- Discover innovative solutions to your analytical challenges to improve your quality control or production processes.
- Find all relevant technical information on products and solutions easily accessible in one place.
- Get an up-to-date and informative overview of the battery market and connect with various international and local companies, start-ups and suppliers.
Well-known suppliers present their new products and solutions
What awaits you at virtual battery day 2023
Experience innovations
Discover innovative, new solutions in battery analytics for your specific needs.
Get a quote
Get in touch with suppliers and request quotes with just a few clicks. Or get informed in advance with brochures, whitepapers and product videos.
Watch presentations
Experience exciting lectures from renowned speakers from industry and research stress-free according to your schedule.
Expand your horizon
Get expert advice on the latest products and find easy-to-implement solutions.
Selected News about Battery Technology
Bottleneck identified: researchers discover the cause of long charging times for solid-state batteries
Solid-state Lithium-Sulfur batteries offer the potential for much higher energy densities and increased safety, compared to conventional lithium-ion batteries. However, the performance of solid-state batteries is currently lacking, with slow charging and discharging being one of the primary causes. Now, a new study from HZB shows that sluggish lithium ion transport within a composite cathode is the cause of this slow charging and discharging.
Recovery of all raw materials from batteries
Who is Cylib and what does Cylib do – in an interview, Gideon Schwich, Co-founder | COO, answers all questions of the chemie.de editorial team. Many thanks for this. On the one hand, we are the three founders: Lilian, Paul and Gideon. But above all, we now have a very strong team from a wide range of areas. We currently have 27 people in our team from various fields. Chemists, process engineers, metallurgists, business economists and engineers. The tendency is strongly increasing. We...
Aluminium-ion batteries with improved storage capacity
Aluminium-ion batteries are seen as a promising alternative to conventional batteries that use scarce and difficult-to-recycle raw materials such as lithium. This is because aluminium is one of the most common elements in the Earth’s crust, is easier to recycle, and is also safer and less expensive than lithium. However, the development of such aluminium-ion batteries is still in its infancy, as suitable electrode materials that provide sufficient storage capacity are still lacking. A...
Umicore speeds up its EV battery materials R&D with unique large-scale prototyping center for solid-state battery materials
Umicore has inaugurated one of the world‘s largest and most advanced solid-state battery material prototyping facilities in Olen, Belgium, which will expand and accelerate its innovation and technology development in this domain. Solid state batteries are expected to propel electric mobility and will complement Umicore’s world leading portfolio of battery materials technologies.
Researchers Test Novel Titanium-Air Battery
Scientists at Forschungszentrum Jülich have developed and successfully lab-tested a novel titanium-air battery in cooperation with researchers at the Technion – Israel Institute of Technology in Haifa. This is the first time that experimental results of such a battery have been published in which titanium is used as an active material. The metal is of interest as an electricity storage material because each atom can donate up to four electrons for charge transfer, while at the same time...
Battery recycling: 70 percent of lithium recovered
Recover up to 70 percent of lithium from battery waste without the need for corrosive chemicals, high temperatures, or prior sorting of materials: This is made possible by a recycling method developed at the Karlsruhe Institute of Technology (KIT) that combines mechanical processes and chemical reactions. The method allows cost-effective, energy-efficient, and environmentally compatible recycling of a wide variety of lithium-ion batteries. The researchers report in the journal Nature...