Khasha Ghaffarzadeh

Founder & CEO

​

​

​

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

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.

Nicolo Brambilla

CTO

Nanoramic’s Neocarbonix™ at the Core technology enables Tier-I battery companies and automotive OEMs to achieve next-gen battery performance using existing equipment and manufacturing processes.
Neocarbonix™ at the Core uses PVDF-free cathode electrodes manufactured with an NMP-free coating process, resulting in environmentally friendly, lower-cost, high-power and energy-dense batteries that are compatible with any cathode chemistry. Neocarbonix™ at the Core is also an enabler of Si-dominant anodes, using a water-based coating process and inexpensive forms of Si.

All, Solid State Batteries, Si Anode and Next-Gen Li-Ion Chemistry, Energy Storage, Batteries and Fuel Cells, Advanced Materials

Nanoramic’s Neocarbonix™ at the Core technology enables Tier-I battery companies and automotive OEMs to achieve next-gen battery performance using existing equipment and manufacturing processes.
Neocarbonix™ at the Core uses PVDF-free cathode electrodes manufactured with an NMP-free coating process, resulting in environmentally friendly, lower-cost, high-power and energy-dense batteries that are compatible with any cathode chemistry. Neocarbonix™ at the Core is also an enabler of Si-dominant anodes, using a water-based coating process and inexpensive forms of Si.

Andriy Korchev

Sr Principal Scientist