Technology firm Solidion Technology, represented on NASDAQ by the ticker STI, along with Oak Ridge National Laboratory, have secured the 2025 R&D 100 Award for their groundbreaking innovation in sustainable graphite production.

In the ever-evolving world of battery technology, a significant breakthrough has been recognised as one of the 100 most innovative technologies of the year worldwide. Solidion Technology (STI) and Oak Ridge National Laboratory have won the prestigious R&D 100 Award for their groundbreaking innovation, Electrochemical Graphitization in Molten Salts (E-GRIMS).

The award, often referred to as the "Oscars of Innovation," underscores the potential impact of E-GRIMS as a transformative technology in the battery market. Developed by Solidion Technology, Inc. and Oak Ridge National Laboratory in 2017, E-GRIMS introduces an energy-efficient, scalable, and environmentally sustainable method for producing graphite anode materials.

This breakthrough has the potential to significantly reduce the carbon footprint of lithium-ion battery manufacturing. Jaymes Winters, CEO of Solidion Technology, has stated that the award underscores the importance of collaboration between national laboratories and industry in accelerating innovation.

Winning the R&D 100 Award for sustainable graphite production, E-GRIMS is expected to ensure performance that meets the demands of next-generation energy storage applications. Solidion Technology is committed to advancing the commercialization of greener and more sustainable graphitization methods.

Solidion Technology's stock is traded on NASDAQ under the symbol STI. The company invites partners and collaborators who share the vision of sustainable energy solutions to join in its mission. Solidion Technology is pursuing pilot-scale and commercial-scale deployment of E-GRIMS, with the benefits of this innovation expected to be brought to global markets.

The benefits of E-GRIMS, such as energy efficiency, scalability, and environmental sustainability, are expected to reshape the graphite anode materials industry. This award-winning technology has the potential to reshape the industry, offering a more sustainable and efficient solution for the production of graphite anode materials.