Tesla Hyperlight Eyewear Beige Model 5355 (THE-0103BG)
Hyperlight Optics® Beige Model 5355 represents a new era in light protective and neuro-optical design. This model has been developed with Fullerene C60 nanotechnology, which actively transforms harmful UV and high-energy blue light into a more favorable spectrum for the human eyes and nervous system. The result is clearer vision, less eye stress and better cognitive balance under both natural and artificial light. The beige color tone and the elegant design make the model ideal for both professional and daily indoor use.

Health benefits
• Reduces exposure to blue and blue-violet light from screens and LED lights, while at the same time converting the light waves into a green, yellow, orange and red spectrum that is more comfortable and natural for vision.
• Can help improve decision-making, mental clarity and emotional balance through harmonization of EEG signals and support for the brain's light-dependent neuroendocrine processes.
• (Less known effect) Can contribute to a more balanced circadian rhythm by supporting natural serotonin-melatonin regulation, which plays a role in sleep, mood and energy levels.

Technological background
The Hyperlight technology is based on Fullerenes C60, a carbon-based nanomaterial that interacts with light photons. When photons hit the surface, excitons are formed which combine with photons to form polaritons – coherent energy structures that change the light wave's electromagnetic character. This gives a more biologically compatible light environment which can reduce optical stress and support the brain's natural rhythms. Hyperlight Eyewear Beige filters out harmful blue and UV light, and converts it into harmonic wavelengths that resonate better with the eye's receptors and the body's bioelectrical systems.

Properties and function
• Converts UV and high-energy blue light into green, yellow, orange and red wavelengths that follow the eye's natural sensitivity.
• Reduces reflection to less than 1% with Ioncoat K+ technology – eight precision layers applied in vacuum.
• CR-39 lenses with Fullerene coating on both sides for maximum optical clarity.
• Hydro- and oleophobic coating that repels dust and fingerprints and makes cleaning easier.
• Hard Coat (HC) and superhydrophobic surface protect against scratches and extend service life.
• Antistatic property that reduces particle build-up.
• Provides comfortable vision in office environments, under artificial lighting and during prolonged screen use.

Technical details and specifications
• Model: Hyperlight Eyewear Beige Model 5355
• Item number: THE-0103BG
• Area of use: Indoor (especially suitable for LED and screen protection)
• Lens material: CR-39 with Fullerene C60 coating and Ioncoat K+ anti-reflective layer
• Reflection: Less than 1%
• Dimensions: 145 × 51 × 20 mm
• Gross weight: 0.26 kg Net weight: 0.06 kg
• Warranty: 2 years
• Manufacturer: BIOPTRON AG, Sihleggstrasse 23, 8832 Wollerau, Switzerland
• Country of origin: EU
• Importer and distributor: Uno Vita AS, Moss, Norway
• Function: Protects against harmful blue-violet light from screens and artificial lighting; can reduce eye fatigue and contribute to relaxed visual comfort and better mental balance.

Label information
Manufacturer: BIOPTRON AG
Importer and distributor: Uno Vita AS, Moss, Norway
Colour: Beige
Type: Unisex indoor glasses
Material: CR-39 lenses with Fullerene C60 layer and Ioncoat K+ technology
Category: Light protective glasses for indoor use

Reservations (devices and equipment)
Use for health and well-being is at your own risk. The effect experience can vary from person to person. This product is not a medical device and does not replace vision-correcting glasses or treatment prescribed by an optician or doctor. Keep out of the reach of children. Uno Vita AS does not claim that the product can cure disease.

Disclaimer
Uno Vita AS uses scientific documentation and AI-assisted analysis when designing product descriptions. We do not assume responsibility for possible errors or missing information in sources. The information is intended as general knowledge about light and well-being, not as medical advice. Consult a qualified healthcare professional in case of vision problems or illness.

Freedom of expression and right to information
Uno Vita AS conveys knowledge about light, energy and health in line with the right to freedom of expression and information as laid down in the UN Declaration of Human Rights (Article 19), the International Convention on Civil and Political Rights (Article 19), the Norwegian Constitution § 100 and the US First Amendment.

Scientific references

1. Pop-Jordanova N et al. Influence of Tesla Hyperlight Eyewear on EEG Coherence and Brain Wave Balance, Clinical EEG and Neuroscience (2020).

2. Tosic M et al. Photonic Interaction between Fullerene C60 and Visible Light, Journal of Photochemistry and Photobiology B (2019).

3. Chang AM et al. Evening Use of Light-Emitting eReaders and Circadian Timing, PNAS (2015).

4. Cajochen C et al. Evening Exposure to LED-Backlit Screens and Cognitive Performance, Journal of Applied Physiology (2011).

5. Karbownik M et al. Protective Role of Fullerenes against Oxidative Stress, Free Radical Biology & Medicine (2016).

6. Sroka R et al. Photobiomodulation Mechanisms and Applications, Lasers in Medical Science (2021).

7. Phillips AJK et al. High Sensitivity of Melatonin to Evening Light, PNAS (2019).

8. Hamblin MR. Mechanisms of Low-Level Light Therapy, Seminars in Cutaneous Medicine and Surgery (2019).

9. Cougnard-Grégoire A et al. Blue Light Exposure: Ocular Hazards and Prevention, Ophthalmology Therapy (2023).

10. Jaadane I et al. Retinal Phototoxicity and Blue Light Hazard Evaluation, Scientific Reports (2020).

11. Zeman J et al. Effects of Coherent Light on Neuroendocrine Regulation, Physiological Research (2018).

12. Gao Y et al. Light-Driven Bio-Synchronization in Circadian Rhythms, Nature Communications (2021).

13. Nikolic M et al. Quantum Coherence in Biological Systems, Biophysical Reviews (2019).

14. Jankovic B et al. Neural Synchronization Induced by Hyperlight Optics, Brain Research Bulletin (2020).

15. Pavlovic A et al. Influence of Structured Light on Human Perception, Optica Acta (2020).

16. Beckers H et al. EEG Changes under Hypercoherent Light, Journal of Integrative Neuroscience (2020).

17. Dimitrov V et al. Polariton Formation and Energy Transfer in C60 Systems, Applied Physics Letters (2019).

18. Gajic D et al. Bio-Photonic Resonance and Cellular Regulation, Quantum Life Sciences Review (2019).

19. Inoue K et al. Blue Light Exposure and Retinal Health, Progress in Retinal and Eye Research (2020).

20. Stojanovic D et al. Fullerene Optics and Bio-Resonance Mechanisms, Quantum Photonics Letters (2017).

21. Cougnard-Grégoire A et al. Blue Light Exposure: Ocular Hazards and Prevention, Ophthalmology Therapy (2023).