THREE PART LABORATORY
FUNDAMENTAL RESEARCH
Lab 1.0 - Fundamental Research
We investigate the mode of action of biophysics on the physiology of life - exploring how low-frequency, low-energy electromagnetic fields interact with particles and biological systems.
Our work spans in vitro, in vivo, and quantum-level studies: from petri-dish experiments and animal research to human clinical trials and MRI-based observation. Beginning 2026, our new microbiology lab will enable in-house bench testing, both for internal validation and as a service for external partners.
APPLIED RESEARCH
Lab 2.0 - Applied Research
Fundamental discoveries are translated into practice through AEQUIL® Science Technology (AST) - a programmable motherboard that generates precise, low-frequency, low-energy fields.
Each signal is tailored to achieve a defined biological or material effect: microbial reduction,virucidal reduction, fungicidal reduction, fertilizer effectiveness.
AST operates across the One Health system - human, animal, and environmental - reducing toxicity, improving efficiency, and enabling scalable innovation.
This is where physics meets life: applied biophysics creating measurable impact across society and the planet.
Lab 3.0 - Commercialisation: AST Inside
Through AEQUIL® Science Technology, we embed programmable fields directly into products,
devices, and industrial systems - creating tangible, accessible applications for everyday use.
© AEQUIL Frédéric Roscop 2015-2025 5
Current Applications
Supplements - AST applied to AEQUIL® Liquid Intelligence to support rhythm, energy, and systemic balance.
Cosmetics - AST applied to AEQUIL® Cellular Intelligence for skin vitality, hydration, and repair.
Air Purification Devices - AST applied to AEQUIL® Air Intelligence to purify air in homes, hospitals, and agricultural settings.
Commercialisation: AST Inside
OEM Integrations AST can be embedded invisibly across sectors - acting as a hidden engine for cleaner, safer, more efficient systems:
Food preservation and refrigeration: Extending shelf-life and reducing microbial growth, e.g. fridges, cold-chain logistics.
Agriculture: Fertilisers, pesticides, and veterinary treatments enhanced with AST to reduce chemical load and improve yields.
Cleaning and sterilisation: Everyday cleaners and industrial systems made safer and more effective, e.g. household cleaners, textile care, food industry hygiene systems.
Medical devices: Including ISO13485-certified devices, applying AST to target antibiotic resistance and conditions such as Lyme disease.
Air purification: Creating healthier environments by neutralising airborne pollutants and microbes, e.g. hospitals, schools, nursing homes, public transport, offices, and agricultural settings.
Because AST relies on locally generated signals rather than raw materials, it avoids geopolitical dependency and reduces energy consumption - enabling sustainable scale for every partner.