A New Standard in Recovery

Rejuvenate Your Daily Wellness Routine.

Red light for the body you carry all day, and a glow mask for the face you show the world. No clinic. No complicated stack. Just light, at home.

Rejuvenate Your Daily <em> Wellness Routine.</em>
  • 4.8★ Australian reviews
  • Free shipping nationwide
  • 3-year warranty on every device
  • 5 wavelengths · face & body
  • Ten minutes at home
  • Melbourne-designed
  • Tracked delivery 1–3 weeks
Wearing the Glow Mask

Glow Mask

Put it on.
Carry on.

No complicated routine. Four steps and you are done.

  • Put the mask on
  • Adjust the straps until it feels comfortable
  • Select your mode on the remote
  • Wear it for your session and continue with your day
Glow Mask results

The glow

The mirror moment
you notice.

Not a filter. Not another serum promising overnight magic. Skin that looks like you slept — like you finally have a ritual that is yours.

Lumi red light panel at home

Lumi Panels

Full-body energy.
Ten minutes at home.

Five wavelengths from red to near-infrared. Stand in front of the panel for ten minutes while the kettle boils. No straps. No hands.

What changes

The version of you that recovers well.

Red light therapy
You wake up
actually rested.

A short session before bed. A wind-down signal without another supplement or protocol.

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Red light therapy
Train consistently.
Recover your routine.

Ten minutes after training. A simple habit that fits between workouts.

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Glow Mask · Face
Looking after yourself
shows.

A simple ritual that compounds. Calmer-looking skin and a face that looks rested.

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Lumi red light therapy at home

Reviews

Real sessions.
Real people.

Glow Mask is the one thing I do not skip — my skin looks calmer and more even with regular use. Not dramatic, just noticeably better in the mirror.

Jade T.

Sydney · 6 weeks · Glow Mask

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Ten minutes after the gym is now part of my routine. Low effort, which means I actually use it most days.

Jake M.

Brisbane · 5 weeks · Lumi Panel

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Morning sessions are part of my routine now. I feel more ready for the day after ten minutes with the panel.

Helen C.

Melbourne · 8 weeks · Lumi Panel

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I use the mask most nights and the panel on my legs after runs. Different tools — both actually get used because they are easy.

Sarah M.

Melbourne · 11 weeks · Mask + Panel

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Ten minutes before breakfast helps me loosen up for the day. Simple routine, no faff.

David R.

Perth · 3 weeks · Lumi Panel

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Used to book clinic LED sessions at $80 a pop. This paid for itself in a couple of months. Same warm light feeling, in my spare room, whenever I want.

Emma L.

Sydney · 3 months · Lumi Panel

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Ten minutes while I answer emails. Skin looks less dull by Friday — my partner noticed before I did.

Priya K.

Canberra · 7 weeks · Glow Mask

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Ten minutes with my coffee before the day starts — easy habit to keep.

Robert F.

Hobart · 10 weeks · Lumi Panel

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Start tonight

Get your glow.

Face, body, or both. Pick the device that fits your life. Ten minutes a day, once it arrives.

Get your <em>glow.</em>

Penetration depth

How deep each
wavelength reaches.

Not all wavelengths go to the same depth. This is why having all five matters — each one targets a different layer of tissue.

Cross-section: skin to bone
Epidermis 0-0.1mm Dermis 0.1-2mm Subcutaneous fat 2-10mm Muscle tissue 10-50mm Bone / deep tissue 50mm+ 630nm
630nm
660nm
810nm
830nm
850nm
630nm
Visible Red
Penetration depth
~0.5mm
Reaches epidermis + upper dermis
Skin cells (keratinocytes)
Surface collagen fibres
Capillaries in upper dermis

The shortest wavelength in the range — visible to the eye as red light. Activates mitochondria in skin cells, accelerating collagen synthesis and wound healing at the surface.

660nm
Deep Red
Penetration depth
~1-2mm
Reaches full dermis
Fibroblasts (collagen producers)
Dermal blood vessels
Mast cells and immune cells

The most studied wavelength in photobiomodulation research. Activates fibroblasts — the cells that produce collagen and elastin. Over 1,000 published studies examine 660nm specifically.

810nm
Near-Infrared
Penetration depth
~2-3cm
Reaches deep tissue + joints
Superficial muscle bellies
Tendons and ligaments
Peripheral neural tissue

810nm transitions into the optical window of tissue where absorption by water and haemoglobin is minimised. Strong affinity for cytochrome c oxidase with emerging neuroprotective evidence.

830nm
Near-Infrared
Penetration depth
~3-4cm
Reaches deep muscle + cartilage
Deep muscle tissue
Cartilage and joint capsule
Periosteum (bone surface)

830nm is particularly well-studied for joint and cartilage applications. Multiple controlled trials show significant pain reduction in osteoarthritis patients.

850nm
Deep NIR
Penetration depth
~4-5cm
Reaches deepest muscle + bone
Deep muscle bellies (quads, glutes, back)
Bone marrow (periosteal layer)
Visceral fascia

The deepest-penetrating wavelength. At 4-5cm depth, 850nm reaches tissue no topical treatment can touch — stimulating mitochondrial ATP in the deep muscle tissue that breaks down under training load.

The mechanism

How light becomes
energy.

The chain of events from photon to ATP — explained step by step.

01Photon absorptionv
Red and near-infrared photons penetrate skin and are absorbed by chromophores — light-sensitive molecules inside cells. The primary chromophore is cytochrome c oxidase (CCO), located in the inner mitochondrial membrane. CCO absorbs specific wavelengths — particularly 630nm, 660nm, 810nm, 830nm, and 850nm.
02Electron transport chain activation^
When CCO absorbs photons, it accelerates the electron transport chain (ETC) — the series of protein complexes in the mitochondrial membrane that shuttle electrons and pump protons across the membrane. This creates a stronger electrochemical gradient — the proton motive force that drives ATP production.
03ATP synthesis increasesv
The enzyme ATP synthase uses the proton gradient to produce ATP — the universal energy currency of the cell. More photon absorption means a stronger proton gradient and more ATP produced. Studies have shown 30-40% increases in cellular ATP output following photobiomodulation sessions.
04Downstream cellular effectsv
More ATP enables cells to do more work faster: fibroblasts produce more collagen, immune cells regulate inflammation more efficiently, muscle cells clear metabolic waste and synthesise new protein. This is why RLT has effects across such a wide range of systems — the mechanism is upstream of almost everything.
Mitochondrial ATP production
ATP ATP ATP Cytochrome c oxidase (CCO) Inner mitochondrial membrane Photons (red light)

Click each step to follow the process

The key molecule

Cytochrome c oxidase.
The master switch.

Cytochrome c oxidase (CCO) is Complex IV of the mitochondrial electron transport chain. It is the primary photoacceptor in photobiomodulation — the molecule that actually absorbs the red and NIR photons and converts that energy into accelerated electron flow.

Under normal conditions, CCO can become partially inhibited by nitric oxide (NO) — particularly in cells under oxidative stress or low energy demand. Red and NIR light photodissociates this NO inhibition, freeing CCO to operate at full capacity.

The result: the electron transport chain runs faster, the proton gradient builds higher, and ATP synthase produces more ATP per unit time. This is not a placebo mechanism — it is measurable, reproducible, and well-characterised in peer-reviewed biochemistry literature.

The analogy
"Think of nitric oxide as a finger on the off switch of your cellular power plant. Red light removes that finger — not by adding energy from outside, but by releasing the brake that was already there. Your mitochondria were always capable of producing more ATP. The light just lets them do it."
CCO — NO photodissociation
Intermembrane space Matrix CCO Complex IV NO hv photon e- e- H+ ATP Synthase producing ATP Normal state: NO partially inhibiting CCO Click to see photodissociation

All five wavelengths

Depth. Target. Mechanism.

Every wavelength in the Lumi range — penetration depth, primary targets, and the biological mechanism at that depth.

630nm
Visible Red
~0.5mm
Depth
Epidermis . skin cells . surface collagen . capillaries
660nm
Deep Red
~1-2mm
Depth
Full dermis . fibroblasts . collagen production . wound healing
810nm
Near-Infrared
~2-3cm
Depth
Tendons . ligaments . shallow muscle . peripheral nerves
830nm
Near-Infrared
~3-4cm
Depth
Deep muscle . cartilage . joint capsule . bone surface
850nm
Deep NIR
~4-5cm
Depth
Deep muscle bellies . bone marrow . visceral fascia

The science is solid.
Now use it daily.

All five wavelengths. Zero EMF. Decades of use. The Lumi range starts at $649.

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