Above -The nanospheres in a methanol suspension have different colors than when applied to a surface as a monolayer. The Kobe University researchers explain, “This is due to the multiple scattering, i ...

Kobe University researchers have created a new "structural color ink," just 100-200 nanometers thick, that shows bright colors from wide viewing angles, without fading, while weighing less than half a ...

Scientists have developed a revolutionary technique for creating colors that can change on command. These are structural colors that don't rely on dyes or pigments and can be used for display signage, ...

(Nanowerk News) An object has color when light of a specific wavelength is reflected. With traditional pigments, this happens by molecules absorbing other colors from white light, but over time this ...

Figure 1. Application of structural color. Nature not only provides humans with abundant material resources but also offers rich colors, satisfying both material and spiritual needs. The vibrant and ...

MXene thin films deliver brighter, more tunable structural colors and a wider color range than conventional materials, enabling scalable high-performance coatings for sensors, displays, and security ...

In a step towards developing advanced materials for functional coatings, a research group has developed a technology that combines structural color coating with super water-repellent properties. The ...

A new 3D-printing ink, inspired by the color-shifting capabilities of chameleons, has been developed by scientists, offering the ability to change colors within a single print job. This innovative ink ...

The fabrication of vibrant structural color coatings utilizing un-processed natural minerals and ceramic powders via electron beam evaporation. The image illustrates the transformation of raw mineral ...

Inspired by chameleons and other colorful animals, researchers at the the University of Illinois Urbana-Champaign and Beckman Institute for Advanced Science and Technology have developed a way to 3D ...

A new way of creating color uses the scattering of light of specific wavelengths around tiny, almost perfectly round silicon crystals. This Kobe University development enables non-fading structural ...