QUANTRILUX™
Advanced Photonic & Materials Technologies
Re-capture. Re-cycle. RE-LITE.
Research platform | Licensing-ready technologies | Industry collaboration
Value Statement
Quantrilux™ is a materials and photonics research initiative focused on engineering next-generation light, energy, and polymer systems for improved efficiency, durability, and performance.
FLAGSHIP PROJECT: RE-LITE
Re-Lite is an advanced reflective backsheet engineered to recycle photons that would otherwise be lost through the rear of photovoltaic modules. By combining ultra-diffuse scattering, microstructured polymer foams, and inorganic reflectors, Re-Lite increases light absorption, reduces thermal load, and improves long-term module performance.
Re-Lite is compatible with silicon, tandem, perovskite, flexible, and thin-film photovoltaic architectures.
PRODUCT VARIANTS
Quantrilux™ Re-Lite Standard
Utility-scale and rooftop solar applications.
Quantrilux™ Re-Lite Industrial
Large-format modules and harsh-environment installations.
Quantrilux™ Re-Lite Flex
Flexible, curved, and portable photovoltaic systems.
What is Quantrilux™?
Quantrilux™ is a research-driven technology platform focused on controlling photons, heat, and material behavior at the micro- and nano-scale.
Core areas include:
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Reflective photonic surfaces
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Hybrid polymer systems
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Energy-enhancing materials
Quantrilux™ Re-Lite Offers
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≥97–99% diffuse reflectance (350–1500 nm)
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5–12% module-level efficiency improvement
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Reduced operating temperature
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Lightweight, UV-stable fluoropolymer matrix
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Drop-in backsheet compatibility
PRODUCT VARIANTS (continued)
Quantrilux™ Re-Lite Aero
Ultra-lightweight aerospace and defense solar applications.
Quantrilux™ Re-Lite Micro
Wearables, sensors, and compact energy-harvesting devices.
How It Works
Light exiting the rear of the solar absorber is diffusely scattered back into the active layer, increasing the probability of absorption.
A combination of microvoid foams, BaSOâ‚„ particles, and nanoscale reflectors creates broadband, angular scattering.
Optional thermal routing layers and durable fluoropolymers reduce heat buildup and extend module lifespan.
FUTURE PROJECTS
Coming From Quantrilux™
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Advanced optical lens systems
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Self-healing polymer materials
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Thermal management films
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Hybrid photonic structures
Collaboration & Partnerships
Quantrilux™ actively seeks collaboration with manufacturers, research institutions, and industry partners interested in validating, scaling, or licensing advanced photonic and materials technologies.
Engagement models include joint development, licensing, pilot-scale manufacturing, and third-party testing.
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Interested parties are encouraged to initiate confidential discussions. Preliminary technical overviews are available upon request.
Quantrilux™
is a research initiative developed by T.M. Vornes.
All technologies are proprietary and may be protected by pending or future intellectual property filings.