First Citizens BancShares Inc vs Nuscale Power Corporation — how do they compare? First Citizens BancShares Inc trades at $2,133.72 (market cap $23.76B), while Nuscale Power Corporation trades at $7.77 (market cap $2.89B). The key difference: First Citizens BancShares Inc is far larger — about 8.2× Nuscale Power Corporation's market cap, and First Citizens BancShares Inc pays a 0.41% dividend while Nuscale Power Corporation pays none. Which is the better fit depends on your goals.
| FCNCA | SMR | |
|---|---|---|
Market Cap | $23.76B | $2.89B |
Sector | Sector/Thematic | Utilities |
52-Week High | $2.20K | $53.43 |
52-Week Low | $1.64K | $8.35 |
Dividend Yield | 0.41% | — |
Enterprise Value | — | $2.00B |
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SMR (NuScale Power) trades at $7.83, down 8.85% on the day and near its 52-week lows. The stock faces significant fundamental challenges with negative net income margins (-2,066.55% in 2026) and consecutive earnings misses, though analyst sentiment remains mixed with a $12.25 consensus price target suggesting 56% upside. Technical indicators show bearish momentum with the price testing key support at $7.
The outlook hinges on NuScale's ability to commercialize its SMR technology amid growing AI power demand. While first-mover advantage and government support provide long-term potential, near-term risks include persistent operating losses, delayed revenue generation, and high cash burn requiring continued financing.
Trailing returns across standard periods
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First Citizens BancShares is a major US regional bank providing diverse financial services. It recently expanded significantly by acquiring the assets and liabilities of Silicon Valley Bank.
Read more on FCNCA →NuScale Power Corporation is a leading developer of Small Modular Reactor (SMR) technology. The company's flagship product is a light water reactor SMR designed to generate clean, reliable, and scalable nuclear power. NuScale's technology is poised to address the global demand for carbon-free energy by offering a safer, smaller, and more flexible alternative to traditional large-scale nuclear power plants, with applications in electricity generation, desalination, and process heat.
Read more on SMR →