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The solar energy market has witnessed remarkable growth in recent years, driven by increasing awareness of environmental sustainability and the need to transition to cleaner energy sources. As the world seeks to reduce dependence on fossil fuels, solar energy has emerged as a key player in the renewable energy landscape. However, the industry still faces limitations while also offering great prospects for the future. One groundbreaking development with significant potential for the solar energy sector is the application of nanotechnology-based coatings on solar panels. SolarEX is an advanced nano-coating that utilizes nanomaterials and possesses unique properties that can address some of the industry's most pressing challenges.

The unique properties of SolarEX include self-cleaning capabilities and resistance to corrosion, enabling the panels to maintain optimal performance even in harsh conditions. The nano-coating can also reduce the overall maintenance and cleaning requirements, leading to cost savings and increased convenience for solar energy system owners.


With the potential to overcome existing challenges and enhance the efficiency and durability of solar panels, SolarEX represents an exciting advancement in the solar energy industry. By harnessing the power of nanotechnology, SolarEX paves the way for a more sustainable and efficient future in solar energy generation.


SolarEX solar cell coating - for a brighter tomorrow

The integration of nanotechnology-based coatings on solar panels can overcome existing limitations, unlocking the full potential of solar energy. These nano-coatings can address the inefficiency of traditional solar panels by improving light absorption and increasing energy yield. Furthermore, nanotechnology-based coatings like SolarEX can provide the self-cleaning capabilities of solar panel surfaces, mitigating maintenance and cleaning costs.

Nanotechnology also holds promise in the energy storage segment. Researchers are exploring diverse approaches to storing solar energy, including the use of nanomaterials in batteries and capacitors that can store energy at a higher rate and increase battery life while offering faster charging.

Furthermore, nanotechnology advancements in smart grid management can provide more accurate assessment methods for renewable energy production. Smart solar grids can optimize energy delivery and protect against power spikes or outages, which often hinder the widespread deployment of solar technologies.

In conclusion, there is enormous potential in the integration of nanotechnology-based coatings and solar energy, which could well be the cornerstone of sustainable energy. Together with ongoing investment, research, and innovation, this technology is poised to drive the energy industry towards a cleaner, more sustainable future.

One month after application of SolarEX

Two solar panels treated with SolarEX (marked with X) in the Middle East

Reduced maintenance and increased effect

Increased Efficiency
SolarEX enhances the light-absorbing properties of solar panels, resulting in improved photon capture and higher electricity conversion rates. In dry climates, where sand can be a major challenge, SolarEX has demonstrated a power increase of at least 2%. When used in Northern Europe, a remarkable 10% increase in efficiency is achieved.

Self-Cleaning Properties
SolarEX's nano-coating provides self-cleaning properties that reduce the impact of dust, dirt, and environmental pollutants on solar panels. This ensures optimal light absorption and minimizes the need for manual cleaning, thus lowering maintenance costs.


Improved Durability
Treatment with SolarEX enhances the durability and resilience of solar panels against harsh weather conditions, UV radiation, and wear. This extension of the panels' lifespan reduces the requirement for replacements, repairs, and potential downtime.

Enhanced Energy Storage
In addition to SolarEX, nanomaterials hold promise in advancing energy storage solutions and addressing the current limitations of solar power. Nanotechnology-based materials can contribute to the development of more efficient and cost-effective energy storage systems, ensuring a reliable and consistent power supply.


High quality SiO₂ - PV Panel Coating


NanoTech Solutions Norway AS

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Protection for solar cells

SiO₂ - SolarEX coating

Silicon dioxide (SiO₂) is a versatile and important material used in various industries, especially in nano-coatings. It is made up of silicon and oxygen atoms and can be found in forms like quartz, sand, and glass. When created at the nano-level, silicon dioxide has special properties that make it really useful.

Silicon-based nano-coatings are thin layers that give surfaces better properties. SiO₂, also known as silica nanoparticles, is popular in nano-coatings because it offers many benefits.

Using silicon dioxide in nano-coatings has lots of advantages, including making surfaces harder, more resistant to wear, and protected against water, oil, chemicals, and UV rays. This makes products like SolarEX valuable in industries like automotive, aerospace, solar panels, and architecture.

With ongoing technological advances, the versatility and effectiveness of SiO₂ in nano-coatings are expected to lead to more innovations in surface protection and functional coatings.

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