General Fusion announced today that it has successfully closed USD $65 million of Series E equity financing. The financing was led by Temasek, a global investment company headquartered in Singapore.

This funding round together with the release of CAD $50 million in additional investment from Canada’s Strategic Innovation Fund enables the company to formally launch the program to design, construct, and subsequently operate its Fusion Demonstration Plant.

In an interview with Business Insider, General Fusion’s CEO Christofer Mowry referred to the announcement as “the SpaceX moment for fusion.”

This prototype facility is intended to confirm the performance of General Fusion’s magnetized target fusion technology in a power plant relevant environment. Pursuit of this next important step toward commercially viable fusion energy reflects the growing global collaboration between public and private stakeholders in this transformative technology.

“The world is pivoting toward fusion as the necessary complement to other technologies which, collectively, will enable the carbon-free energy future we all need,” said Chief Executive Officer Christofer Mowry.

“The success of our financing is further evidence that the global stakeholders in this endeavor are leaning into this challenge with action. We are proud and honored that Temasek and our other investors have demonstrated their confidence in General Fusion with this funding.”

In addition to Temasek, the Cleantech Practice of Business Development Bank of Canada (BDC), the DLF Group, Gimv, I2BF Global Ventures, Disruptive Technology Advisers, Hatch, and several individual impact investors have become new investors in General Fusion.

They were joined in this financing by many existing international investors in the Company, including Chrysalix Energy Venture Capital, Bezos Expeditions, Khazanah Nasional Berhad, Braemar Energy Ventures, Entrepreneurs Fund, and SET Ventures.

To date, General Fusion has attracted more than USD $200 million in funding to develop its practical approach to fusion energy.