Energía nuclear y criptomonedas: evaluar el valor estratégico de las infraestructuras energéticas en los cambios geopolíticos

The intersection of nuclear energy and cryptocurrency is emerging as a high-stakes arena for capital, innovation, and geopolitical strategy. As global energy demands surge-driven by AI, data centers, and decentralized finance (DeFi)-nuclear power's unique attributes-reliability, low cost, and carbon-free output-are positioning it as a critical enabler for crypto mining. Yet, the strategic value of nuclear infrastructure is not just technical; it is deeply entangled with geopolitical dynamics, particularly in contested regions like Ukraine's Zaporizhzhia Nuclear Power Plant (ZNPP). This article unpacks the under-the-radar investment opportunities at this nexus, focusing on how control over energy assets like ZNPP could redefine energy economics for crypto mining and influence global capital flows in 2026.

ZNPP: A Geopolitical Battleground for Energy Control

The ZNPP, Europe's largest nuclear facility, has become a focal point of the Russia-Ukraine conflict. As of November 2025, the plant remains under Russian military control but operates with only one 750 kV and one 330 kV power line, both

. Emergency diesel generators (EDGs) now sustain critical safety systems, with . This precarious situation has sparked fears that Russia could into its grid, effectively weaponizing energy infrastructure.

The geopolitical stakes are immense.

suggests splitting ZNPP's electricity output equally between Russia and Ukraine under IAEA supervision. While experts argue such a plan is technically impractical, it underscores the growing interest in leveraging nuclear assets for dual purposes: energy security and crypto mining. that the U.S. is interested in using ZNPP for mining further highlight how energy infrastructure is becoming a currency in geopolitical negotiations.

The Economics of Nuclear-Powered Crypto Mining

Nuclear energy's appeal for crypto mining lies in its cost efficiency and baseload reliability.

, a 1 MW mining operation using surplus nuclear power could generate $4.5 million in annual revenue, with profits exceeding $4 million under optimal conditions. This financial proposition strengthens as Bitcoin prices rise, making nuclear energy a strategic asset for miners seeking to reduce operational costs.

France's proposed integration of Bitcoin mining with surplus nuclear power exemplifies this trend. By installing mining hardware at nuclear sites and repurposing waste heat for industrial use, France aims to monetize low-demand energy while stabilizing its grid.

are pioneering underground 15 MWe small modular reactors (SMRs) to provide scalable, secure power for energy-intensive applications like crypto mining. These projects highlight how nuclear energy can address both the technical and economic challenges of decentralized finance.

Emerging Startups and Partnerships at the Nuclear-Crypto Nexus

The nuclear-crypto space is attracting under-the-radar innovators and institutional players.

, is set to deploy its first underground reactor by July 2026, targeting high-energy-demand sectors. Meanwhile, -powered by its Susquehanna nuclear facility-demonstrates how traditional energy firms are pivoting to capitalize on crypto's energy needs.

Decentralized finance is also evolving to leverage nuclear energy.

are exploring blockchain scalability solutions that align with low-cost, high-capacity energy sources. These developments are supported by , including U.S. bipartisan legislation accelerating nuclear deployment to meet AI and crypto energy demands.

Geopolitical Shifts and the Future of Energy Infrastructure

The ZNPP's status is emblematic of a broader trend: energy infrastructure as a geopolitical lever. As the U.S. and China vie for dominance in critical minerals and clean energy,

could determine access to the low-cost energy needed for AI and crypto ecosystems. on returning ZNPP to Ukrainian control further underscores the strategic importance of energy sovereignty.

Meanwhile, the U.S.-China trade war's impact on rare earths and other critical minerals highlights vulnerabilities in energy supply chains.

, with countries like Bangladesh and Turkey investing in nuclear programs to reduce dependency on single suppliers. For investors, these shifts create opportunities in nuclear energy startups, SMR developers, and DeFi platforms integrating with energy infrastructure.

Strategic Investment Opportunities in 2026

For capital seeking high-growth, under-the-radar opportunities, the nuclear-crypto intersection offers several avenues:
1. SMR Developers: Companies like Deep Fission and Commonwealth Fusion Systems are pioneering scalable, secure energy solutions for crypto and AI.
2. Energy-DeFi Partnerships: Blockchain projects leveraging nuclear energy for low-cost, sustainable operations.
3. ZNPP-Linked Negotiations: Monitoring geopolitical developments around ZNPP for potential energy-sharing agreements or joint management deals.
4. Critical Mineral Diversification: Investing in firms securing supply chains for rare earths and other minerals essential to nuclear and crypto infrastructure.

As the energy transition accelerates, the fusion of nuclear power and decentralized finance will redefine how value is created and distributed. For those attuned to the interplay of technology, geopolitics, and capital, the next frontier lies in securing the infrastructure that powers it all.