The Science Behind GoNano
Discover the revolutionary nanotechnology that's transforming surface
protection through molecular-level engineering and advanced materials science.
How Nanotechnology Works
Understanding the science behind molecular-level surface protection
Molecular-Level Protection
GoNano technology operates at the nanoscale, where particles measure just 1-100 nanometers. To put this in perspective, a nanometer is one billionth of a meter - so small that millions of nanoparticles could fit on the head of a pin.
At this scale, the laws of physics behave differently. Surface area-to-volume ratios are maximized, allowing for unprecedented adhesion and coverage. The nanoparticles form chemical bonds with the substrate material, creating a protective layer that becomes part of the surface itself.
This molecular integration means the protection won't peel, chip, or wear away like traditional coatings. Instead, it maintains its protective properties for decades.
The result: a unified barrier against stains
caused by environmental factors.
Roof Recharge's utilization of GoNano's revolutionary technology represents a significant advancement in surface sealants. Traditional sealants merely coat surfaces, often filling spaces with oil and providing a temporary barrier.
In contrast, Roof Recharge's treatments fundamentally alter the molecular structure of materials, particularly asphalt shingles. Upon application, a chemical reaction initiates within each shingle, creating new S1 particles that bind both organic and inorganic components. These particles link shingle granules together from within, forming a unified, durable barrier against environmental stressors.
This inside-out approach not only enhances protection but also extends the lifespan of your roof, saving you money on maintenance and replacements over time.
The Application Process
How nanotechnology is precisely applied to achieve optimal results
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