Our science is built on the convergence of biophysics and cellular biology, underpinned by two decades of pioneering research and applied technological innovation. This unique foundation allows us to move beyond treating symptoms and instead focus on restoring the body's fundamental coherence - optimizing the intricate communication between its electrical and biochemical systems.
CellPowerX Co-Founder | Nuno Nina
Creator of ACTYVA
"ACTYVA translates the invisible into the visible, allowing supplements to take a form never before experienced."
Nuno Nina is a pioneer in bioelectromagnetic and bioinformational medicine with over 20 years of clinical experience and more than 70,000 client journeys worldwide.
Combining backgrounds in Mathematics, Systems Engineering, and Biochemistry, he bridges science and technology to create innovative wellness solutions — including pioneering work in molecular hydrogen and biofrequency technology.
Guided by Leading Expertise.
To ensure we remain at the forefront of innovation, our independent Scientific Advisory Board validates our research, holding us to the highest scientific standards.
Professor Pedro Vaz, PhD FRSC
Scientific Advisor
Professor Vaz is a leading authority in the application of physics to life sciences. He is a senior researcher in the Lung Cancer Unit at the Champalimaud Foundation, a world-renowned center recognized for its pioneering work in cancer research and clinical care. His extensive research in radiation physics, dosimetry, and the medical applications of ionizing radiation provides invaluable expertise to our mission. With over 100 publications and numerous international appointments, including at the ISIS Neutron Facility, UK, his guidance ensures our technological innovation is grounded in the highest standards of scientific rigor and safety.
Dr. João Paulo de Almeida, MD
SCIENTIFIC ADVISOR
Dr. De Almeida is a distinguished physician specializing in Clinical Pathology and Sports Medicine, with a career spanning decades at the highest levels of international sport and clinical excellence.
He served as the official physician of the Portuguese Olympic delegation in eight Olympic Games and as the official medical representative of the International Modern Pentathlon Union (UIPM). Formerly the Director of the Lisbon Sports Medicine Center, team physician for the Portuguese Football Federation, and Medical Director of Sport Lisboa e Benfica, Dr. De Almeida brings a unique blend of medical, scientific, and performance expertise to our mission.
Technological Principles & Supporting Research.
The efficacy of our core technologies is rooted in established scientific theories. We translate peer-reviewed research and decades of clinical data into tangible outcomes.
The first AI-assisted bioactivation technology designed for CellPower shots.
NEXAI™ is a proprietary intelligence system that merges Artificial Intelligence with Nuno Nina's two decades of real clinical data. It analyzes anonymized data patterns from over 70,000 client profiles to identify the most effective synergies between bioactive compounds.
Rather than simply combining ingredients, NEXAI™ designs intelligent formulations -optimized to interact with the human body in a more efficient and precise way.
But NEXAI™ goes even further.
Each formula is activated only at the moment of consumption through a process of biophotonic activation. This light-based interaction temporarily reorganizes the molecular structure of the liquid, enhancing both absorption and bioefficacy.
The result?
CellPower shots with integrated intelligence - formulas that not only support well-being, but adapt to the exact moment when your body needs them most.
Together, these findings support the concept of ACTYVA as a specific and silent photonic emitter capable of influencing water structure and supporting coherent vibrational patterns in liquid formulas.
Biophotonic Function
Karu, T. (1998)
- Karu’s work provides a strong basis, demonstrating that light in the 400–820 nm range interacts directly with cytochrome c oxidase, increasing ATP production and promoting DNA repair. These mitochondrial responses support the hypothesis that calibrated photonic stimulation — as in ACTYVA — can actively support energy metabolism and regenerative processes at the time of consumption. Link
Pollack, G.H. (2013)
- Beyond mitochondria, the structural organization of water under light influence is another key aspect. Pollack demonstrated that water near hydrophilic surfaces forms quasicrystalline layers (EZ), which become thicker when exposed to infrared radiation. The expansion of these EZ structures suggests that photonic activation promotes a more coherent and energetically ordered aqueous phase, facilitating information transfer and cellular bioenergetics, aligning with ACTYVA’s objectives. Link
Korotkov, K. (2017)
- Korotkov expanded this view by studying the effects of light across various wavelengths — from ultraviolet (energetic effects) to infrared (molecular effects) — highlighting the role of photonic microvibrations in the molecular organization of liquids. He also emphasized diagnostic methods such as Electrophotonic Imaging (EPI/GDV), capable of visualizing photonic emissions from liquids and tissues, confirming changes in their energetic and informational states. Link
- Karu’s work provides a strong basis, demonstrating that light in the 400–820 nm range interacts directly with cytochrome c oxidase, increasing ATP production and promoting DNA repair. These mitochondrial responses support the hypothesis that calibrated photonic stimulation — as in ACTYVA — can actively support energy metabolism and regenerative processes at the time of consumption. Link
- Beyond mitochondria, the structural organization of water under light influence is another key aspect. Pollack demonstrated that water near hydrophilic surfaces forms quasicrystalline layers (EZ), which become thicker when exposed to infrared radiation. The expansion of these EZ structures suggests that photonic activation promotes a more coherent and energetically ordered aqueous phase, facilitating information transfer and cellular bioenergetics, aligning with ACTYVA’s objectives. Link
- Korotkov expanded this view by studying the effects of light across various wavelengths — from ultraviolet (energetic effects) to infrared (molecular effects) — highlighting the role of photonic microvibrations in the molecular organization of liquids. He also emphasized diagnostic methods such as Electrophotonic Imaging (EPI/GDV), capable of visualizing photonic emissions from liquids and tissues, confirming changes in their energetic and informational states. Link
When a vial containing the HydroIRX™ formula is placed in ACTYVA’s calibrated photonic field, the light emission may induce — or help promote — a reorganized state of the HydroIRX™ matrix, consistent with the following models.
The hydroIRX Process: Water & Light Science
Ling, G.N. (2001)
- Inspired by Gilbert Ling’s Association-Induction Hypothesis, ACTYVA builds on the idea that water within living cells is not random, but structured around proteins in an organized, polarized state. Ling proposed that energy molecules like ATP can modulate these protein–water interactions, shaping the body’s internal terrain. In a similar way, ACTYVA’s calibrated photonic field acts as a light-based modulator, promoting molecular reorganization within the HydroIRX™ matrix to restore coherence and optimize bioinformational balance. Link
Ho, M.-W. (2012)
- Mae-Wan Ho proposed water as a coherent liquid crystal organizing living systems, capable of rapid communication and energy transfer. This complements Pollack’s concept, suggesting that photonic stimulation may enhance this liquid crystalline order, reinforcing the bioinformational terrain ACTYVA seeks to modulate. Link
Messori, C. (2019)
- Claudio Messori introduced the theory of superradiant coherent water clusters, describing how water can form stable and cooperative states that store and transmit information in a quasi-quantum fashion. Messori’s view implies that ordered photonic input — like that of ACTYVA — can synchronize or reinforce these coherent domains, optimizing the liquid’s molecular structure and its interface with biological systems. Link
- Inspired by Gilbert Ling’s Association-Induction Hypothesis, ACTYVA builds on the idea that water within living cells is not random, but structured around proteins in an organized, polarized state. Ling proposed that energy molecules like ATP can modulate these protein–water interactions, shaping the body’s internal terrain. In a similar way, ACTYVA’s calibrated photonic field acts as a light-based modulator, promoting molecular reorganization within the HydroIRX™ matrix to restore coherence and optimize bioinformational balance. Link
- Mae-Wan Ho proposed water as a coherent liquid crystal organizing living systems, capable of rapid communication and energy transfer. This complements Pollack’s concept, suggesting that photonic stimulation may enhance this liquid crystalline order, reinforcing the bioinformational terrain ACTYVA seeks to modulate. Link
- Claudio Messori introduced the theory of superradiant coherent water clusters, describing how water can form stable and cooperative states that store and transmit information in a quasi-quantum fashion. Messori’s view implies that ordered photonic input — like that of ACTYVA — can synchronize or reinforce these coherent domains, optimizing the liquid’s molecular structure and its interface with biological systems. Link
DISCLAIMER
Although the referenced studies demonstrate interactions between light and organisms/liquid matrices, there is not yet a unanimous scientific consensus on direct clinical benefits in humans. Nevertheless, ACTYVA was developed to maximize the bioenergetic coherence of your supplement as part of an integrative wellness approach.
Now that you understand the science and research that power our technology, discover the two-decade journey of clinical practice and innovation that brought it to life.