Specimen 001 — Structural color

Color without
pigment.

Light, engineered into matter.

A titanium thin-film, tens of nanometers thick, deposited on a polished substrate. No dye. No ink. The color is the interference of light with itself.

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SPECIMEN 001 MATERIAL Ti thin-film on borosilicate PROPERTY Peak wavelength · 612 nm

THESIS

A pigment absorbs light and returns what is left. A structure returns light it never absorbed at all — color held in geometry, not in chemistry.

What you see is film thickness, measured in nanometers, reading itself back to your eye.

Nacre does this in seashell. The morpho butterfly does this in chitin. We do it on demand, on steel, on glass, on polymer — tuned to a wavelength we choose.

THREE REGIMES

Three ways to build a color out of structure.

The same principle at three scales of light.

01
Thin-film

Fresnel · single layer

A single layer, 80 to 300 nm. Interference between two reflections sets the hue. The oldest trick and the most controllable.
02
Photonic

Bragg stack · bandgap

Periodic stacks and lattices that forbid a band of wavelengths and reflect it cleanly. Saturated, angle-stable color.
03
Plasmonic

Nanostructure · surface plasmon

Sub-wavelength metal features that trap light as surface electron oscillations. Color from objects smaller than the color itself.

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APPLICATIONS

Color withoutpigment.

A pigment absorbs light and returns what is left. A structure returns light it never absorbed at all — color held in geometry, not in chemistry.

Thin-film

Photonic

Plasmonic

Color without
pigment.