General Fusion’s Nasdaq Listing Pushes Fusion Energy Into the Market Spotlight

Fusion energy has spent decades on the sidelines of the global energy system. Scientists praised its potential, policymakers admired its promise, and investors waited patiently for proof that it could work outside the lab. Now, that long wait appears to be ending.

General Fusion’s planned listing on Nasdaq marks a clear shift in how fusion energy is viewed. The Vancouver-based company has agreed to merge with Spring Valley Acquisition Corp. III, a move that would make it the world’s first publicly traded pure-play fusion energy company. Once the deal closes, General Fusion is expected to trade under the ticker symbol GFUZ.

More importantly, the transaction signals that fusion is moving beyond theory. It is stepping into capital markets, where timelines, costs, and performance matter.

AI, Electrification, and Data Centers Are Driving a New Energy Boom

Electricity demand is rising faster than grids can comfortably handle. According to the International Energy Agency, global power demand could grow by 40-50% by 2035.

This surge is not coming from a single source. Instead, it reflects a mix of electrified transport, electric heating, advanced manufacturing, and rapid digital expansion.

At the same time, artificial intelligence has become a major driver of energy. Data centers now consume enormous amounts of electricity, and demand continues to climb. In the United States, the Department of Energy estimates that data center power use could double or even triple by 2028.

Solar and wind have expanded quickly and remain essential to decarbonisation. However, they depend on the weather and daylight. Batteries help smooth supply, but they cannot yet support large-scale, long-duration demand on their own. As a result, the need for clean, reliable baseload power is becoming urgent.

This is where fusion enters the conversation.

Why Fusion Energy Stands Apart

Fusion works by combining light atoms, usually hydrogen isotopes, to release energy. It is the same process that powers the sun. Unlike nuclear fission, which splits heavy atoms and produces long-lived radioactive waste, fusion generates far less waste and carries no risk of meltdown.

The International Atomic Energy Agency estimates that fusion can produce four times more energy per unit of fuel than fission and nearly four million times more energy than coal or oil. Just as important, fusion fuel is abundant and widely available.

These features make fusion attractive not just as a clean energy source, but as a foundation for long-term energy security.

General Fusion’s Different Path to Fusion Power

While many fusion developers rely on massive superconducting magnets or powerful laser systems, General Fusion has taken a different route. The company focuses on Magnetized Target Fusion, or MTF, a design intended to simplify fusion hardware and reduce costs.

MTF creates a hot plasma and stabilises it with magnetic fields. Then, instead of squeezing the plasma with magnets or lasers, the system mechanically compresses it using a liquid lithium liner. This rapid compression raises temperature and pressure to fusion conditions.

General Fusion argues that this approach avoids some of the complexity that has slowed other fusion concepts. It also allows the use of existing industrial materials, rather than highly specialised components. Over time, this could make fusion power plants more durable and more affordable.

https://generalfusion.com/fusion-technology/mtf/?_gl=1*icdyu2*_up*MQ..*_ga*ODA2MjUzMjI5LjE3NjkxNDk4NDA.*_ga_HF7PR7Y9GW*czE3NjkxNDk4MzkkbzEkZzAkdDE3NjkxNDk4MzkkajYwJGwwJGgw

LM26 Marks a Critical Step Forward

In early 2025, General Fusion announced a major milestone. The company had designed, built, and begun operating Lawson Machine 26, known as LM26. This system represents the world’s first large-scale MTF fusion demonstration built at a commercially relevant size.

LM26 operates at half the diameter of a future commercial reactor. It mechanically compresses plasma using a lithium liner, closely mirroring how a full-scale plant would function. The machine aims to reach several critical technical targets, including heating plasma to 10 million degrees Celsius, then to 100 million degrees Celsius, and ultimately achieving the Lawson criterion.

Reaching the Lawson criterion matters because it defines the conditions required for net fusion energy within the plasma. General Fusion plans to use proceeds from the SPAC transaction to advance LM26 testing and move closer to that goal.

Two Decades of Work Behind the Headlines

The company has spent 20 years developing fusion technology, steadily building both scientific credibility and engineering expertise.

During that time, General Fusion assembled a strong intellectual property portfolio, with more than 210 patents issued or pending. It also became one of only a few private fusion companies worldwide to publish peer-reviewed fusion results. Since its founding, it has raised more than US$400 million from institutional investors, strategic partners, venture firms, and government programs.

This long track record helps explain why investors are willing to back the company as it moves into public markets.

• ALSO READ: General Atomics Fuels UNITY-2 Fusion Project in Canada as Global Fusion Investment Hits $2.64 Billion 

General Fusion’s Big Leap into Public Markets

The proposed business combination with Spring Valley Acquisition Corp. III implies a pro-forma equity value of roughly US$1 billion. The transaction includes about US$105 million from a committed and oversubscribed PIPE financing, along with US$230 million from SVAC’s trust account, assuming no redemptions.

The companies expect to complete the transaction in mid-2026, pending regulatory and shareholder approvals. After closing, the combined business plans to operate under the General Fusion name and list its shares and warrants on Nasdaq.

Spring Valley brings deep experience in energy and nuclear markets. Its leadership team has completed dozens of energy and decarbonization transactions and previously helped take NuScale Power public, marking the first listing of a small modular reactor company.

Strong Market Tailwinds Support Fusion

Beyond company-specific progress, broader market forces are pushing fusion forward. Electricity demand continues to rise as economies electrify. Governments are searching for clean energy sources that do not compromise grid stability.

Meanwhile, large technology firms are actively seeking reliable, carbon-free power to support AI growth.

• Industry estimates suggest the fusion energy sector could reach between US$40 billion and US$80 billion by the mid-2030s. If commercial deployment accelerates, the market could exceed US$350 billion by 2050.

Early fusion plants will likely focus on grid-scale baseload electricity, with hydrogen production and industrial heat applications following later.

However, General Fusion’s Nasdaq move does not mean fusion power is ready for mass use yet. The technology still faces major challenges, including scaling reactors, improving materials, and proving long-term reliability.

Still, the listing marks a turning point. Fusion is shifting from a scientific experiment to a real commercial contender. Public markets will bring more funding, clearer timelines, and stronger scrutiny.

The next decade will determine whether fusion can move from demonstrations to operational power plants. With electricity demand rising and clean baseload options limited, fusion is finally stepping into the spotlight. The fusion era is no longer just an idea — it is starting to take shape.

• ALSO READ: Eni’s $1 Billion Bet on Fusion: Partnering with Commonwealth Fusion Systems (CFS) for a Net-Zero Future 

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