We Don't Just Dim Your Screen.
We Re-Engineer the Light.

Evidence-based screen care: tinting that adapts to your day and supports comfort, focus, and sleep.

The approach

How we adapt the light

Circadian Flow

The tint shifts gradually to follow the sun—clearer by day, warmer at night—so your circadian rhythm can stay in sync. The result: sustained comfort during the day and better readiness for sleep when you need it.

Day

Dawn → morning

Clear, cool tones that match morning light and support alertness.

Noon

Peak sun

Full clarity when you need it most, with balanced tones and reduced glare.

Night

Dusk → evening

Warmer tint as the day winds down, supporting natural wind-down and sleep.

The Cost of Unfiltered Light

Displays emit high-energy visible (HEV) blue light similar to midday sun—exposing your eyes to hours of strain when left unfiltered.

Unfiltered vs EyeRise—see the difference.

Unfiltered HEV

Unfiltered HEV spectrum—peak blue exposure

With EyeRise
EyeRise filtered

Filtered spectrum—reduced blue, sustained comfort

Extended use

Digital Eye Strain

Prolonged exposure to unfiltered HEV light can accelerate tear film evaporation, leading to dryness, irritation, and fatigue.

Daily exposure

Visual Fatigue

Sustained near work and blue-heavy displays can overwork the ciliary muscle, contributing to tension headaches and eye strain.

After dark

Circadian Disruption

Evening blue light suppresses melatonin production, which can delay sleep onset and reduce sleep quality.

The 20-20-20 Rule

Built-in break reminders so you never forget to give your eyes a rest.

Time for a Break 👀

Look at something 20 feet away for 20 seconds

The 20-20-20 Rule

Built-in break reminders

Every 20 minutes, EyeRise gently nudges you to look at something 20 feet away for 20 seconds.

This ophthalmologist-recommended technique relaxes the ciliary muscle, reduces eye strain by up to 40%, and resets your blink rate to prevent dryness.

20Minutes
20Feet
20Seconds

Clinical Evidence

Backed by rigorous research and international safety standards.

17 peer-reviewed studieson blue light, circadian rhythm, and eye strain

Blue Light, Sleep & Circadian Rhythm

Blue Light and Digital Screens Revisited

REVIEW

Blue light (~400–500 nm) from screens disrupts circadian rhythm, causes sleep disturbances, and is linked to metabolic dysregulation.

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Interventions to Reduce Blue Light at Night

META-ANALYSIS

Systematic review: blue-light filtering lenses show small-to-medium effects on sleep efficiency and total sleep time.

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Tablet Use Delays Bedtime and Circadian Timing

RCT

Unrestricted evening tablet use delays self-selected bedtime and disrupts circadian timing and alertness.

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Evening Computer Screens Disrupt Sleep

PEER-REVIEWED

Evening light exposure to computer screens disrupts human sleep, biological rhythms, and attention.

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Blue Light Filter Apps and Sleep Quality

OBSERVATIONAL

Study of smartphone users: blue light filter applications and their effects on sleep outcomes.

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Spectral Tuning of Evening Light and Melatonin

PEER-REVIEWED

Effects of spectral tuning of evening ambient light on melatonin suppression, alertness, and sleep.

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Smartphone Blue Light: Randomized Trial

RCT

Double-blind trial: smartphone use with vs. without blue light at night affects sleepiness and attention.

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Red vs. Blue LED Light and Melatonin

PEER-REVIEWED

Comparative effects of red and blue LED light on melatonin levels during three-hour exposure.

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Color Temperature and Melatonin Production

PEER-REVIEWED

Effect of color temperature on melatonin production for illumination of working environments.

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Computer Vision Syndrome & Digital Eye Strain

Computer Vision Syndrome: Comprehensive Review

SYSTEMATIC REVIEW

Literature review of CVS prevalence, symptoms, and evidence-based interventions.

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Digital Eye Strain: Updated Perspectives

REVIEW

Review of digital eye strain, validated tools (CVS-Q, CVSS17), and management strategies.

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Digital Eye Strain in Young Screen Users

SYSTEMATIC REVIEW

Systematic review of digital eye strain in young screen users, prevalence and risk factors.

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Computer Vision Syndrome: Meta-Analysis

META-ANALYSIS

Systematic review and meta-analysis of CVS and its determinants across populations.

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Breaks, Blinking & Dry Eye

Testing the 20-20-20 Rule

PEER-REVIEWED

Effects of breaks on digital eye strain, dry eye, and binocular vision.

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20-20-20 Rule: Are the Numbers Justified?

RESEARCH

Critical evaluation of the evidence base for 20-20-20 break recommendations.

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Blink Software for Dry Eye in VDT Users

RCT

Efficacy of blink software in improving blink rate and dry eye symptoms.

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Reduced Blinking During Screen Use

PEER-REVIEWED

Marked reduction in eye blinking in dry eye patients during video display terminal use.

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