University of Kwazulu-Natal

Quantum Computing Practical Applications And Business Impact In 2025

Bonisiwe Shabane
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quantum computing practical applications and business impact in 2025

Quantum computing is transitioning from theoretical research to practical business applications in 2025. While still in its early stages, quantum technology is already delivering measurable value in specific use cases and industries, creating new opportunities for competitive advantage. Quantum computers process information using quantum bits (qubits) that can exist in multiple states simultaneously, unlike classical bits that are either 0 or 1. This quantum superposition, combined with entanglement and interference, enables quantum computers to solve certain types of problems exponentially faster than classical computers. The key advantage lies not in general computing power, but in specific problem domains where quantum algorithms provide significant speedups. These include optimization problems, cryptographic applications, molecular simulation, and certain machine learning tasks.

Quantum computers in 2025 remain specialized tools rather than general-purpose computing platforms. Current systems require extreme cooling, have limited qubit counts, and experience quantum decoherence that limits computation time. However, significant progress has been made in error correction, qubit stability, and programming frameworks. Major technology companies and startups are offering cloud-based quantum computing services, making the technology accessible without massive infrastructure investments. Agentic AI: How Autonomous AI Agents Are Reshaping Business Operations in 2025 Quantum Digital Signatures: Securing Future Communications with Quantum Authentication

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What was once a niche scientific curiosity is now delivering measurable value. In 2025, quantum technology made a leap from lab benches to industry boardrooms and production lines. Companies report quantum-inspired gains in telecom networks, logistics optimization, AI-hybrid systems, and sensing technologies. With major players aligning hardware roadmaps, enterprise pilots scaling up, and investment flooding the ecosystem, this year has undoubtedly earned the label of the ‘real-world quantum’ inflection point. When it comes to quantum technology (QT), investment is surging and breakthroughs are multiplying. The United Nations has designated 2025 the International Year of Quantum Science and Technology, celebrating 100 years since the initial development of quantum mechanics.

Our research confirms that QT is gaining widespread traction worldwide. McKinsey’s fourth annual Quantum Technology Monitor covers last year’s breakthroughs, investment trends, and emerging opportunities in this fast-evolving landscape. In 2024, the QT industry saw a shift from growing quantum bits (qubits) to stabilizing qubits—and that marks a turning point. It signals to mission-critical industries that QT could soon become a safe and reliable component of their technology infrastructure. To that end, this year’s report provides a special deep dive into the fast-growing market of quantum communication, which could unlock the security needed for widespread QT uptake. Quantum technology encompasses three subfields:

Our new research shows that the three core pillars of QT—quantum computing, quantum communication, and quantum sensing—could together generate up to $97 billion in revenue worldwide by 2035. Quantum computing will capture the bulk of that revenue, growing from $4 billion in revenue in 2024 to as much as $72 billion in 2035 (see sidebar “What is quantum technology?”). While QT will affect many industries, the chemicals, life sciences, finance, and mobility industries will see the most growth. McKinsey initiated its annual quantum technology report in 2021 to track the rapidly evolving quantum technology landscape. We analyze three principal areas of the field: quantum computing, quantum communication, and quantum sensing. The analysis is based on input from various sources, including publicly available data, expert interviews, and proprietary McKinsey analyses.

The conclusions and estimations have been cross-checked across market databases and validated through investor reports, press releases, and expert input. Because not all deal values are publicly disclosed and databases are updated continuously, our research does not provide a definitive or exhaustive list of start-ups, funding activities, investment splits, or patents and publications. Quantum computing has transitioned from theoretical exploration to practical implementation in 2025, driven by breakthroughs in hardware stability, error correction, and scalable architectures. This article synthesizes the current state of quantum applications across industries, highlighting how enterprises and research institutions are leveraging quantum systems to solve previously intractable problems. Microsoft’s Majorana 1 processor, unveiled in February 2025, represents a paradigm shift with its topological qubits engineered from novel “topoconductor” materials. These qubits leverage Majorana Zero Modes (MZMs), quasiparticles that inherently protect quantum information from environmental noise, reducing error correction overhead by 90% compared to superconducting qubits.

This advancement aligns with DARPA’s US2QC program, which prioritizes fault-tolerant prototypes for defense and industrial applications.

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