The Science Behind Solar Chill™ Redefining Solar Efficiency

The Science Behind Solar Chill™ Redefining Solar Efficiency

The Science Behind Solar Chill™ Redefining Solar Efficiency

The Science Behind Solar Chill™ Redefining Solar Efficiency

Advanced nanotechnology and metamaterials optimize solar energy absorption while reducing heat losses.

Advanced nanotechnology and metamaterials optimize solar energy absorption while reducing heat losses.

Advanced nanotechnology and metamaterials optimize solar energy absorption while reducing heat losses.

Advanced nanotechnology and metamaterials optimize solar energy absorption while reducing heat losses.

See Technical Whitepaper

See Technical Whitepaper

See Technical Whitepaper

See Technical Whitepaper

How Solar Chill™ Works

How Solar Chill™ Works

How Solar Chill™ Works

How Solar Chill™ Works

Solar panels suffer from significant heat-related efficiency losses. Solar Chill™ addresses this by utilizing:

Solar panels suffer from significant heat-related efficiency losses. Solar Chill™ addresses this by utilizing:

Solar panels suffer from significant heat-related efficiency losses. Solar Chill™ addresses this by utilizing:

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Nanostructures & Metamaterials

Engineered layers that filter infrared (heat-producing) light while allowing maximum visible light transmission.

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Nanostructures & Metamaterials

Engineered layers that filter infrared (heat-producing) light while allowing maximum visible light transmission.

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Nanostructures & Metamaterials

Engineered layers that filter infrared (heat-producing) light while allowing maximum visible light transmission.

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Nanostructures & Metamaterials

Engineered layers that filter infrared (heat-producing) light while allowing maximum visible light transmission.

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Integrated EVA Film

For OEMs, Solar Chill™ is embedded in the panel’s upper EVA layer, requiring no changes to the existing manufacturing process.

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Integrated EVA Film

For OEMs, Solar Chill™ is embedded in the panel’s upper EVA layer, requiring no changes to the existing manufacturing process.

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Integrated EVA Film

For OEMs, Solar Chill™ is embedded in the panel’s upper EVA layer, requiring no changes to the existing manufacturing process.

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Integrated EVA Film

For OEMs, Solar Chill™ is embedded in the panel’s upper EVA layer, requiring no changes to the existing manufacturing process.

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Retrofit Application

A thin-film transfer solution enables solar project owners to apply Solar Chill™ on existing panels with minimal cost and effort.

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Retrofit Application

A thin-film transfer solution enables solar project owners to apply Solar Chill™ on existing panels with minimal cost and effort.

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Retrofit Application

A thin-film transfer solution enables solar project owners to apply Solar Chill™ on existing panels with minimal cost and effort.

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Retrofit Application

A thin-film transfer solution enables solar project owners to apply Solar Chill™ on existing panels with minimal cost and effort.

Learn More

Learn More

Learn More

Learn More

Industry-Backed Research & Testing

Industry-Backed Research & Testing

An illustration from Carlos Gomes Cabral
An illustration from Carlos Gomes Cabral
An illustration from Carlos Gomes Cabral

01.

University of Colorado Boulder & Colorado School of Mines

have conducted multiple lab simulations, confirming: A 60% reduction in infrared transmission, significantly lowering panel temperatures. Up to a 20% increase in overall efficiency when applied to existing panels.

02.

Physical Testing

03.

OEM & Field Testing Underway

An illustration from Carlos Gomes Cabral
An illustration from Carlos Gomes Cabral
An illustration from Carlos Gomes Cabral

01.

University of Colorado Boulder & Colorado School of Mines

have conducted multiple lab simulations, confirming: A 60% reduction in infrared transmission, significantly lowering panel temperatures. Up to a 20% increase in overall efficiency when applied to existing panels.

02.

Physical Testing

03.

OEM & Field Testing Underway

01.

University of Colorado Boulder & Colorado School of Mines

have conducted multiple lab simulations, confirming: A 60% reduction in infrared transmission, significantly lowering panel temperatures. Up to a 20% increase in overall efficiency when applied to existing panels.

02.

Physical Testing

03.

OEM & Field Testing Underway

01.

University of Colorado Boulder & Colorado School of Mines

have conducted multiple lab simulations, confirming: A 60% reduction in infrared transmission, significantly lowering panel temperatures. Up to a 20% increase in overall efficiency when applied to existing panels.

02.

Physical Testing

03.

OEM & Field Testing Underway

Why Solar Chill™ Outperforms Alternative Solutions

A Superior, Cost-Effective Solar Enhancement

A Superior, Cost-Effective Solar Enhancement

Technology

Technology

Efficiency Boost

Efficiency Boost

Cost

Cost

Market Readiness

Market Readiness

Solar Chill™

Solar Chill™

20%+

20%+

Low

Low

Available Now

Available Now

Bi-Facial Panels

Bi-Facial Panels

5-10%

5-10%

High

High

Current

Current

Tracking Systems

Tracking Systems

5-15%

5-15%

High

High

Current

Current

Perovskite Cells

Perovskite Cells

15-20%

15-20%

Very High

Very High

Experimental

Experimental

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Competing solutions require costly new infrastructure or panel replacements.

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Competing solutions require costly new infrastructure or panel replacements.

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Competing solutions require costly new infrastructure or panel replacements.

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Competing solutions require costly new infrastructure or panel replacements.

Solar Chill™ is an additive solution, enhancing any existing or future panel design without disruption.

Solar Chill™ is an additive solution, enhancing any existing or future panel design without disruption.

Solar Chill™ is an additive solution, enhancing any existing or future panel design without disruption.

Solar Chill™ is an additive solution, enhancing any existing or future panel design without disruption.

Works in high-temperature and challenging environments, making solar farms more resilient.

Works in high-temperature and challenging environments, making solar farms more resilient.

Works in high-temperature and challenging environments, making solar farms more resilient.

Works in high-temperature and challenging environments, making solar farms more resilient.

See Industry Comparisons

See Industry Comparisons

See Industry Comparisons

See Industry Comparisons

A Scalable Technology for Global Solar Expansion

Multiple Applications

Industry Adoption Potential

Multiple Applications:

OEM integration in new solar panel production.

Retrofit solutions for existing solar installations.

Recycling applications, giving new life to end-of-life panels.

A Scalable Technology for Global Solar Expansion

Multiple Applications

Industry Adoption Potential

Multiple Applications:

OEM integration in new solar panel production.

Retrofit solutions for existing solar installations.

Recycling applications, giving new life to end-of-life panels.

A Scalable Technology for Global Solar Expansion

Multiple Applications

Industry Adoption Potential

Multiple Applications:

OEM integration in new solar panel production.

Retrofit solutions for existing solar installations.

Recycling applications, giving new life to end-of-life panels.

A Scalable Technology for Global Solar Expansion

Multiple Applications

Industry Adoption Potential

Multiple Applications:

OEM integration in new solar panel production.

Retrofit solutions for existing solar installations.

Recycling applications, giving new life to end-of-life panels.