Nanoscale Drawbridges Open Path to Color Displays
December 7, 2015 | Rice UniversityEstimated reading time: 5 minutes
"The great thing about these chemical bridges is that we can create and eliminate them simply by applying or reversing a voltage," Landes said. "This is the first method yet demonstrated to produce dramatic, reversible color changes for devices built from light-activated nanoparticles."
Byers said his research into the plasmonic behavior of gold dimers began about two years ago.
"We were pursuing the idea that we could make significant changes in optical properties of individual particles simply by altering charge density," he said. "Theory predicts that colors can be changed just by adding or removing electrons, and we wanted to see if we could do that reversibly, simply by turning a voltage on or off."
The experiments worked. The color shift was observed and reversible, but the change in the color was minute.
"It wasn't going to get anybody excited about any sort of switchable display applications," Landes said.
But she and Byers also noticed that their results differed from the theoretical predictions.
Landes said that was because the predictions were based upon using an inert electrode made of a metal like palladium that isn't subject to oxidation. But silver is not inert. It reacts easily with oxygen in air or water to form a coat of unsightly silver oxide. This oxidizing layer can also form from silver chloride, and Landes said that is what was occurring when the silver counter electrode was used in Byers' first experiments.
"It was an imperfection that was throwing off our results, but rather than run away from it, we decided to use it to our advantage," Landes said.
Rice plasmonics pioneer and study co-author Naomi Halas, director of the Smalley-Curl Institute, said the new research shows how plasmonic components could be used to produce electronically switchable color-displays.
"Gold nanoparticles are particularly attractive for display purposes," said Halas, Rice's Stanley C. Moore Professor of Electrical and Computer Engineering and professor of chemistry, bioengineering, physics and astronomy, and materials science and nanoengineering. "Depending upon their shape, they can produce a variety of specific colors. They are also extremely stable, and even though gold is expensive, very little is needed to produce an extremely bright color."
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