An advanced, next-generation multifunctional material platform designed to modify physicochemical, biological, and electrochemical processes.
The Physical Additive Functional Platform™ is an advanced, next-generation multifunctional material platform designed to modify physicochemical, biological, and electrochemical processes.
Its operation is based on controlled surface interactions, charge transfer, and activation under environmental stimuli, without interfering with the fundamental architecture of the systems in which it is applied.
The matrix enables the stabilization and modulation of molecular interactions, which improves reaction selectivity and structural ordering at the nano-level.
2. Systemic Antioxidation
Demonstrates the ability to significantly reduce oxidative load, supporting redox balance in both biological and technical systems.
1. Physicochemical Interactions (n–π, π–π)
The matrix enables the stabilization and modulation of molecular interactions, which improves reaction selectivity and structural ordering at the nano-level.
2. Systemic Antioxidation
Demonstrates the ability to significantly reduce oxidative load, supporting redox balance in both biological and technical systems.
3. Functional Biphasic Capability
Operates simultaneously in organic and inorganic phases, enabling energy and charge transfer between environments with distinct properties.
4. Electrolytic Processes and Hydrogen Production
Reduces electron, proton, and ion transport resistance, increasing electrolysis efficiency and the stability of electrochemical processes.
5. Light Activation (hν)
Undergoes controlled photonic activation, initiating redox reactions and photodynamic phenomena without permanently altering the material structure.
6. Photodynamics and Light–Matter Reactions
Enhances system response to UV and visible radiation, enabling precise control over energetic and chemical processes.
7. Medical Photodynamic Therapies
Can act as an enhancer of therapeutic effects in light-based procedures, including selective and localized therapies.
Supports oxidative homeostasis and regenerative processes, representing a new class of functional additives for longevity.
10. Biocidal Action and Biological Protection
Exhibits a broad spectrum of antibacterial, antiviral, and antifungal activity as a complement to classical therapies.
11. Surface Modifications
Allows for the permanent alteration of surface properties without interfering with the material core, improving adhesion, stability, and functionality.
12. Advanced Materials Modification
Finds application in dental composites, semiconductors, microchips, and quantum systems, supporting stability and state control.
13. Active Substance Carrier
Acts as a universal transporter, increasing bioavailability and the precision of delivery for drugs and active compounds.
