ALL PAST & FUTURE EVENTS AS WELL AS MASTERCLASSES WITH A SINGLE ANNUAL PASS
Solid-State Batteries: Innovations, Promising Start-ups, Future Roadmap
9-10 February 2022
Virtual Event Platform
About the Event
This LIVE (online) conference will explore the trends in development and commercialization of solid state batteries, bringing together all the stakeholders and innovators ranging from material developers to innovative startups to OEMs and application developers
Topics Covered
Solid State Batteries | Start Ups | Scale Up | R2R | Novel Cathode Composites | Emerging Electrolyte Material Families | AI in Material Discovery and Optimization | LiS | Graphene | Reactive Metals | Al | Sodium | Zn | VACNT | Green Solvents | Si Anode | Fluoride Cathodes | Solvent Free | Ni-Rich NMCs | 3D Architectures | Additively Manufactured | Novel Cermaics
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Leading global speakers include:

























Full Agenda
The times below is Central European Times (CET).
On the platform the times will automatically be changed to your time zone
Coming Soon

9 February 2022
TechBlick
Wednesday
Welcome & Introduction
More Details
2.00pm


Khasha Ghaffarzadeh
Founder & CEO



Welcome & Introduction
More Details
2.00pm

9 February 2022
E-Magy
Wednesday
Nano-porous silicon for high-energy silicon-dominant batteries
More Details
2:10pm


Casper Peeters
CEO
A major improvement for the next generation of Li-ion batteries is the introduction of silicon as material for the anode, bringing capacity and fast charging to the next level. The biggest challenge of applying silicon-dominant anodes in Li-ion batteries, is silicon's tendency to expand during cycling.
E-magy has invented and manufactures micron-sized silicon particles with nanopores that overcome this challenge by containing that expansion within the nanopores themselves. Li-ion batteries with anodes made of E-magy silicon hold 40% more energy than those made of graphite. It's the low-cost, drop-in solution compatible with existing production lines that the EV industry needs – as currently verified by R&D managers of more than a dozen leading automotive and battery manufacturer brands.
All, Solid State Batteries, Si Anode and Next-Gen Li-Ion Chemistry, Energy Storage, Batteries and Fuel Cells, b, Advanced Materials
Nano-porous silicon for high-energy silicon-dominant batteries
More Details
2:10pm
A major improvement for the next generation of Li-ion batteries is the introduction of silicon as material for the anode, bringing capacity and fast charging to the next level. The biggest challenge of applying silicon-dominant anodes in Li-ion batteries, is silicon's tendency to expand during cycling.
E-magy has invented and manufactures micron-sized silicon particles with nanopores that overcome this challenge by containing that expansion within the nanopores themselves. Li-ion batteries with anodes made of E-magy silicon hold 40% more energy than those made of graphite. It's the low-cost, drop-in solution compatible with existing production lines that the EV industry needs – as currently verified by R&D managers of more than a dozen leading automotive and battery manufacturer brands.

9 February 2022
Nanoramic Laboratories