VERTICALLY INTEGRATED BATTERY ANODE MATERIAL BUSINESS POSITIONED FOR THE GLOBAL TRANSITION TO CLEAN ENERGY Positioned to support the demand for high quality, sustainably produced battery anode materials HIGH QUALITY, SUSTAINABLY PRODUCED BATTERY ANODE MATERIAL COMMITTED TO INNOVATION AND SUSTAINABILITY, ECOGRAF PROVIDES MINE-TO-MARKET ESG SUPPLY CHAIN ASSURANCE Lowering the carbon emission footprint of EVs by focusing on closed loop recycling FOCUSING ON CLOSED LOOP RECYCLING

About us

Founded on a commitment to innovation and sustainability, EcoGraf is building a vertically integrated business to produce high purity graphite for the lithium-ion battery market.

The new state-of-the-art processing facility in Western Australia will manufacture spherical graphite products for export to Asia, Europe and North America using a superior, environmentally responsible purification technology to provide customers with sustainably produced, high performance battery anode graphite. In time the battery graphite production base will be expanded to include additional facilities in Europe and North America to support the global transition to clean, renewable energy in the coming decade.

In addition, the Company’s breakthrough recovery of graphite from recycled batteries using its EcoGrafTM process will enable the recycling industry to reduce battery waste and use recycled graphite to improve battery lifecycle efficiency.

To complement the battery graphite operations, EcoGraf is also developing the TanzGraphite natural flake graphite business, commencing with the Epanko Graphite Project, which will supply additional feedstock for the spherical graphite processing facilities and provide customers with a long term supply of high quality graphite products for industrial applications such as refractories, recarburisers and lubricants.

Read More

Watch Our Video

EcoGraf Updates

  • Stay Updated

    Sign up below to receive ASX News Alerts and/or our Latest Market enews.

  • We respect your privacy.
  • This field is for validation purposes and should be left unchanged.