Quantum Base Becomes First Lancaster University Spin-Out to Float on London Stock Exchange with £4.8 Million Fundraise

Quantum Base, a spin-out from Lancaster University, has become the first such entity to float on the London Stock Exchange’s AIM market under the ticker QUBE, raising £4.8 million to support its growth and commercialization efforts. Founded in 2013 by Professor Rob Young, the company aims to harness quantum physics for real-world applications, particularly through its Q-IDs technology—unbreakable tags designed to combat counterfeiting.

These tags leverage atomic-level randomness, offering a robust solution that integrates seamlessly with existing printing methods and can be authenticated via smartphone. Targeting global brands, governments, and consumers, Quantum Base addresses the significant issue of counterfeiting, which costs $2.8 trillion annually, by providing an effective alternative to traditional solutions that often require costly changes or specialized equipment.

Quantum Base Becomes First Lancaster University Spin-Out to List on LSE

Quantum Base has achieved a significant milestone by becoming the first spin-out from Lancaster University to list on the London Stock Exchange’s AIM market under the ticker QUBE. This follows a successful fundraising of £4.8 million, reflecting investor confidence in the company’s innovative anti-counterfeiting technology and its growth potential.

In 2013, Quantum Base was established to commercialize Professor Rob Young’s research in quantum physics. The company has developed the Q-ID solution, which utilizes atomic-level randomness to create unbreakable authenticity tags. These tags can be integrated into various products and authenticated using smartphones, providing a robust defense against counterfeiting.

The Q-ID technology addresses the limitations of traditional anti-counterfeiting methods by offering a cost-effective and easy solution without requiring additional infrastructure or consumer behavior changes. This approach has been validated through rigorous testing and peer-reviewed research, establishing its effectiveness in combating counterfeit threats.

With the funds raised from this listing, Quantum Base plans to accelerate the commercialization of Q-IDs, supporting product development and strategic hires. The company aims to expand its customer base and establish Q-IDs as a leading solution in the global anti-counterfeiting market.

Scientific Validation and Market Potential of Quantum Bases Innovation

Quantum Base’s Q-ID technology addresses the global counterfeit problem by leveraging atomic-level randomness to create unique authenticity tags. These tags are embedded within products during manufacturing, ensuring each tag is mathematically unique and impossible to duplicate. Unlike traditional methods reliant on visible markers such as holograms or watermarks, Q-IDs operate at a microscopic level, enhancing security by making replication unfeasible.

The technology’s effectiveness has been confirmed through extensive adversarial testing and peer-reviewed research in leading scientific journals. This validation underscores the reliability of Q-IDs in protecting high-value goods across various sectors, including pharmaceuticals, luxury items, and electronics. By embedding information directly into products, Q-IDs simplify implementation without requiring specialized infrastructure, aligning with existing production processes.

The global market for anti-counterfeiting solutions is driven by increasing concerns over product authenticity and supply chain security. Q-IDs provide a cost-effective and versatile option for businesses seeking to safeguard their brand integrity and consumer trust. The technology’s scalability allows it to be adapted across different industries, making it a viable solution for reducing counterfeit-related losses estimated at $2.8 trillion annually.

By integrating Q-IDs into supply chains, businesses can enhance security without major overhauls, potentially saving billions annually. The cost-effectiveness of Q-IDs compared to traditional methods facilitates broader adoption, positioning the technology as a critical tool in combating global counterfeiting threats.