With time, paint and pictures lose their intensity. But tiny metallic pixels could be used to create vivid images and paintwork that never lose their lustre—and the resulting pictures are becoming more detailed than ever.
These aluminum pixels—known as plasmomic pixels—aren’t entirely new. They’ve been used in the past to create small and simple images just a few microns wide, as well as block-color screens that can be tuned to change between red, green and blue shades. Now, though, a team from the University of Melbourne has used the pixels to create detailed color images.
The plasmnonic pixels make use of the free electrons that float around within metals. Make a small aluminum pixel in the right size and shape, and those electrons vibrate at a particular frequency—in turn giving off a specific color of light. In fact, the size dictates the color and the gaps between neighboring pixels the saturation.
The Melbourne team has now developed a new design and manufacture process that allows it to create 2,000 different types of the pixel, which corresponds to 2,000 different colors and shades. That provides a far richer palette from which to create images than researchers have had access to in the past.
An example of what can be achieved is at the top of the page: The image on the left is an actual photograph, while in the middle and on the right are representations made using the plasmonic pixels. The plasmonic image measures just over half an inch across—large compared to previous microscopic images created using the same technique. Currently it looks washed out compared to the real picture, but with more pixels to choose from, it will only ever look better.
The team reckons that the technique could be used to print never-fading, high-resolution images, which may be of use for security tags, medical packaging—or simply images that you never want to say goodbye to.