Ionic MT’s Ionisil™ Achieves Sustainability Milestone with Minviro Life Cycle Assessment

PROVO, Utah--(BUSINESS WIRE)--Ionic Mineral Technologies (Ionic MT) is proud to announce the results of its comprehensive Life Cycle Assessment (LCA), conducted by the independent sustainability consultancy Minviro. The study confirms that Ionic MT’s Ionisil™ nano-silicon anode material achieves an industry-leading carbon footprint of 1.11 to 1.42 kg CO₂-e per kWh, positioning it as an environmentally responsible anode material.

The LCA was conducted in accordance with the ISO 14067:2018 standard, ensuring a rigorous, transparent, and science-driven approach. Minviro, a globally recognized leader in environmental assessments for the battery and mining sectors, applied best practices to quantify Ionisil™'s full environmental impact, covering:

• Scope 1: Direct emissions,
• Scope 2: Indirect energy emissions, and
• Scope 3: Upstream emissions.

The findings provide a credible foundation for Ionic MT’s sustainability claims, meeting the high standards required by stakeholders across the energy transition landscape. This underscores Ionic MT’s leadership in delivering sustainable, high-performance battery solutions critical to the global energy transition. Notably, Ionisil™ shows a potential reduction of:

• Up to 90% in emissions compared to natural graphite,
• Up to 93% reduction compared to synthetic graphite.

Innovation and Sustainability in Ionisil™ Production

The favorably low carbon footprint of Ionisil™ is attributed to Ionic MT’s innovative production process, which prioritizes sustainability at every stage:

• Recycled Magnesium: Ionisil™ production relies on post-industrial recycled magnesium for metallothermic reduction, significantly lowering upstream emissions.
• Halloysite Feedstock: Derived from high-purity halloysite clay, Ionisil™ requires minimal beneficiation and avoids the use of explosives, chemicals, or water during extraction.
• Energy Optimization: Ionic MT employs efficient energy sourcing, including renewable power, to further minimize emissions.
• Byproduct Recovery: The production process recovers alumina from halloysite and recycled magnesium reductant, transforming them into value-added products for reintegration into production or other industrial applications.

“The LCA results demonstrate that Ionisil™ is not only a high-performance material but also a material designed with sustainability at the forefront,” said Andre Zeitoun, Founder & CEO of Ionic Mineral Technologies. “As the battery industry strives to reduce carbon emissions across the value chain, Ionisil™ provides a clear path toward achieving net-zero goals without compromising performance.”

A Game-Changer for the Battery and EV Industries

Battery manufacturers, automotive OEMs, and energy storage providers face increasing pressure to lower the environmental footprint of their supply chains. Ionisil™ delivers a clear competitive advantage by offering:

• Drop-In Compatibility: Designed as a drop-in replacement for traditional graphite anodes, Ionisil™ requires no changes to existing battery manufacturing processes.
• Scalable Sustainability: With access to a secure, high-quality feedstock and a scalable production process, Ionic MT is poised to meet the growing demand for sustainable battery materials.

About Minviro

Minviro is a globally recognized environmental consultancy and technology company specializing in life cycle assessments for battery and critical material supply chains. Minviro’s analyses adhere to international standards such as ISO 14040, 14044, and 14067, ensuring rigorous, science-based methodologies that deliver credible and actionable results for sustainability leaders.

About Ionic Mineral Technologies

Ionic Mineral Technologies (Ionic MT) is a pioneering producer of nano-silicon materials for lithium-ion battery anodes. Designed to enable the next generation of electric vehicles, consumer electronics, and energy storage systems, Ionic MT leverages high-purity halloysite resources and innovative, sustainable manufacturing processes to reduce the environmental impact of battery production while delivering superior performance.

For more information, visit www.ionicmt.com.